Spansion-Controllers-html.html

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.3

MB9B320T Series



FEATURES



32-bit ARM Cortex-M3 Core



Processor version: r2p1



Up to 60 MHz Frequency Operation



Integrated Nested Vectored Interrupt Controller (NVIC): 1 NMI (non-maskable interrupt) and
48 peripheral interrupts and 16 priority levels



24-bit System timer (Sys Tick): System timer for OS task management



On-chip Memories

[Flash memory]



Dual operation Flash memory



Main area:



Up to 1.5Mbytes(1008Kbytes(ROM0) + 512Kbytes(ROM1) of Upper bank and 16Kbytes(ROM0)
of Lower bank.)



Work area



64 Kbytes(ROM1) of Lower bank



Read cycle: 0 wait-cycle



Security function for code protection

[SRAM]

This Series on-chip SRAM is composed of two independent SRAM (SRAM0, SRAM1). SRAM0 is
connected to I-code bus or D-code bus of Cortex-M3 core. SRAM1 is connected to System bus.



SRAM0: Up to 96 Kbytes



SRAM1: Up to 96 Kbytes



External Bus Interface



Supports SRAM, NOR NAND Flash memory device



Up to 8 chip selects



8/16-bit Data width



Up to 25-bit Address bit



Supports Address/Data multiplex



Supports external RDY function



USB Interface

The USB interface is composed of Function and Host.

[USB function]



USB2.0 Full-Speed supported



Max 6 EndPoint supported



EndPoint 0 is control transfer



EndPoint 1, 2 can select Bulk-transfer, Interrupt-transfer or Isochronous-transfer



EndPoint 3 to 5 can select Bulk-transfer or Interrupt-transfer



EndPoint 1 to 5 are comprised of Double Buffers.



The size of each EndPoint is as follows.



EndPoint 0, 2 to 5:64 bytes



EndPoint 1: 256 bytes

[USB host]



USB2.0 Full/Low-speed supported



Bulk-transfer, interrupt-transfer and Isochronous-transfer support



USB Device connected/dis-connected automatic detection



Automatic processing of the IN/OUT token handshake packet



Max 256-byte packet-length supported



Wake-up function supported

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.3

MB9B320T Series



Multi-function Serial Interface (Max 16channels)



4 channels with 16steps×9-bit FIFO



Operation mode is selectable from the followings for each channel.



UART



CSIO



LIN



[UART]



Full duplex double buffer



Selection with or without parity supported



Built-in dedicated baud rate generator



External clock available as a serial clock



Hardware Flow control: Automatically control the transmission/reception by CTS/RTS (only ch.4)



Various error detection functions available (parity errors, framing errors, and overrun errors)

[CSIO]



Full duplex double buffer



Built-in dedicated baud rate generator



Overrun error detection function available

[LIN]



LIN protocol Rev.2.1 supported



Full duplex double buffer



Master/Slave mode supported



LIN break field generation (can be changed to 13 to 16-bit length)



LIN break delimiter generation (can be changed to 1 to 4-bit length)



Various error detection functions available (parity errors, framing errors, and overrun errors)

Standard - mode (Max 100kbps) / Fast - mode (Max 400kbps) supported



DMA Controller (8channels)

The DMA Controller has an independent bus from the CPU, so CPU and DMA Controller can process
simultaneously.



8 independently configured and operated channels



Transfer can be started by software or request from the built-in peripherals



Transfer address area: 32-bit (4 Gbytes)



Transfer mode: Block transfer/Burst transfer/Demand transfer



Transfer data type: byte/half-word/word



Transfer block count: 1 to 16



Number of transfers: 1 to 65536



A/D Converter (Max 24channels)

[12-bit A/D Converter]



Successive Approximation type



Built-in 2units



Conversion time: 2.0μs @ 2.7V to 5.5V



Priority conversion available (priority at 2levels)



Scanning conversion mode



Built-in FIFO for conversion data storage (for SCAN conversion: 16steps, for Priority conversion:

4steps)

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.3

MB9B320T Series



D/A Converter (Max 2channels)



R-2R type



10-bit resolution



Base Timer (Max 16channels)

Operation mode is selectable from the followings for each channel.



16-bit PWM timer



16-bit PPG timer



16/32-bit reload timer



16/32-bit PWC timer



General-Purpose I/O Port

This series can use its pins as general-purpose I/O ports when they are not used for external bus or
peripherals. Moreover, the port relocate function is built in. It can set which I/O port the peripheral function
can be allocated to.



Capable of pull-up control per pin



Capable of reading pin level directly



Built-in the port relocate function



Up to 154 high-speed general-purpose I/O Ports@176pin Package



Some ports are 5V tolerant.

See "



LIST OF PIN FUNCTIONS" and "



I/O CIRCUIT TYPE" to confirm the corresponding pins.



Dual Timer (32/16-bit Down Counter)

The Dual Timer consists of two programmable 32/16-bit down counters.
Operation mode is selectable from the followings for each channel.



Free-running



Periodic (=Reload)



One-shot



Quadrature Position/Revolution Counter (QPRC) (Max 2channels)

The Quadrature Position/Revolution Counter (QPRC) is used to measure the position of the position
encoder. Moreover, it is possible to use as the up/down counter.



The detection edge of the three external event input pins AIN, BIN and ZIN is configurable.



16-bit position counter



16-bit revolution counter



Two 16-bit compare registers



HDMI-CEC/Remote Control Reception (Up to 2channels)



HDMI-CEC transmission



Header block automatic transmission by judging Signal free



Generating status interrupt by detecting Arbitration lost



Generating START, EOM, ACK automatically to output CEC transmission by setting 1 byte data



Generating transmission status interrupt when transmitting 1 block (1 byte data and EOM/ACK)



HDMI-CEC reception



Automatic ACK reply function available



Line error detection function available



Remote control reception



4 bytes reception buffer



Repeat code detection function available

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.3

MB9B320T Series



Multi-function Timer

The Multi-function timer is composed of the following blocks.



16-bit free-run timer × 3ch./unit



Input capture × 4ch./unit



Output compare × 6ch./unit



A/D activation compare × 3ch./unit



Waveform generator × 3ch./unit



16-bit PPG timer × 3ch./unit

The following function can be used to achieve the motor control.



PWM signal output function



DC chopper waveform output function



Dead time function



Input capture function



A/D convertor activate function



DTIF (Motor emergency stop) interrupt function



Real-time clock (RTC)

The Real-time clock can count Year/Month/Day/Hour/Minute/Second/A day of the week from 01 to 99.



The interrupt function with specifying date and time (Year/Month/Day/Hour/Minute/Second/A day of

the week.) is available. This function is also available by specifying only Year, Month, Day, Hour or
Minute.



Timer interrupt function after set time or each set time.



Capable of rewriting the time with continuing the time count.



Leap year automatic count is available.



Watch Counter

The Watch counter is used for wake up from sleep and timer mode.

Interval timer: up to 64s (Max) @ Sub Clock : 32.768 kHz



External Interrupt Controller Unit



Up to 32 external interrupt input pins @ 176pin Package



Include one non-maskable interrupt (NMI) input pin



Watchdog Timer (2channels)

A watchdog timer can generate interrupts or a reset when a time-out value is reached.

This series consists of two different watchdogs, a "Hardware" watchdog and a "Software" watchdog.

The "Hardware" watchdog timer is clocked by the built-in low-speed CR oscillator. Therefore, the
"Hardware" watchdog is active in any low-power consumption modes except RTC, STOP, Deep standby
RTC, Deep standby STOP modes.



CRC (Cyclic Redundancy Check) Accelerator

The CRC accelerator calculates the CRC which has a heavy software processing load, and achieves a
reduction of the integrity check processing load for reception data and storage.

CCITT CRC16 and IEEE-802.3 CRC32 are supported.



CCITT CRC16 Generator Polynomial: 0x1021



IEEE-802.3 CRC32 Generator Polynomial: 0x04C11DB7

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.3

MB9B320T Series



Clock and Reset

[Clocks]

Selectable from five clock sources (2 external oscillators, 2 built-in CR oscillators, and Main PLL).



Main Clock

: 4 MHz to 48 MHz



Sub Clock

: 32.768 kHz



Built-in high-speed CR Clock

: 4 MHz



Built-in low-speed CR Clock

: 100 kHz



Main PLL Clock

[Resets]



Reset requests from INITX pin



Power-on reset



Software reset



Watchdog timers reset



Low-voltage detection reset



Clock Super Visor reset



Clock Super Visor (CSV)

Clocks generated by built-in CR oscillators are used to supervise abnormality of the external clocks.



If external clock failure (clock stop) is detected, reset is asserted.



If external frequency anomaly is detected, interrupt or reset is asserted.



Low-Voltage Detector (LVD)

This Series includes 2-stage monitoring of voltage on the VCC pins. When the voltage falls below the
voltage that has been set, Low-Voltage Detector generates an interrupt or reset.



LVD1: error reporting via interrupt



LVD2: auto-reset operation



Low-Power Consumption Mode

Six low-power consumption modes supported.



SLEEP



TIMER



RTC



STOP



Deep standby RTC (selectable between keeping the value of RAM and not)



Deep standby STOP (selectable between keeping the value of RAM and not)



Debug

・

Serial Wire JTAG Debug Port (SWJ-DP)

・

Embedded Trace Macrocell (ETM)



Unique ID

Unique value of the device (41-bit) is set.



Power Supply

Wide range voltage : VCC

= 2.7V to 5.5V

: USBVCC = 3.0V to 3.6V (when USB is used)

= 2.7V to 5.5V (when GPIO is used)

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.3

MB9B320T Series



PRODUCT LINEUP



Memory size

Product name

MB9BF328S/T

MB9BF329S/T

On-chip
Flash
memory

Main area

1 Mbytes

1.5 Mbytes

Work area

64 Kbytes

On-chip
SRAM

SRAM0

80 Kbytes

96 Kbytes

SRAM1

80 Kbytes

96 Kbytes

Total

160 Kbytes

192 Kbytes



Function

Product name

MB9BF328S
MB9BF329S

MB9BF328T
MB9BF329T

Pin count

144

176/192

CPU

Cortex-M3

Freq.

60 MHz

Power supply voltage range

2.7V to 5.5V

USB2.0 (Function/Host)

1ch.

DMAC

8ch.

External Bus Interface

Addr: 25 bit (Max)

R/Wdata : 8/16 bit (Max)

CS: 8 (Max)

SRAM , NOR Flash memory , NAND Flash memory

Multi-function Serial Interface
(UART/CSIO/LIN/I

16ch. (Max)

Base Timer
(PWC/Reload timer/PWM/PPG)

16ch. (Max)

MF-
Timer

A/D activation
compare

3ch.

1 unit

Input capture

4ch.

Free-run timer

3ch.

Output compare

6ch.

Waveform
generator

3ch.

PPG

3ch.

QPRC

1ch.(Max)

2ch. (Max)

Dual Timer

1 unit

HDMI-CEC/ Remote Control
Reception

2ch. (Max)

Real-Time Clock

1 unit

Watch Counter

1 unit

CRC Accelerator

Yes

Watchdog timer

1ch. (SW) + 1ch. (HW)

External Interrupts

32pins (Max) + NMI × 1

I/O ports

122pins (Max)

154pins (Max)

12-bit A/D converter

24ch. (2 units)

10-bit D/A converter

2ch. (Max)

CSV (Clock Super Visor)

Yes

LVD (Low-Voltage Detector)

2ch.

Built-in CR

High-speed

4 MHz (± 2%)

Low-speed

100 kHz (Typ)

Debug Function

SWJ-DP / ETM

Unique ID

Yes

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series



PIN ASSIGNMENT



FPT-176P-M07

(TOP VIEW)

VSS

P81/UDP0

P80/UDM0

USBVCC

PF5/SCK6_2/IGTRG0_1/INT08_0/WKUP3/CEC1_0

PF4/SOT6_2/TIOB06_0/INT07_0

PF3/SIN6_2/TIOA06_0/INT06_0

P60/SIN5_0/TIOA02_2/INT15_1/WKUP5/MAD20_0

P61/UHCONX/SOT5_0/TIOB02_2/MAD19_0

P62/ADTG_3/SCK5_0/MAD18_0

PD3/TIOB03_2/MAD17_0

PD2/SIN4_0/TIOA03_2/INT00_2/MAD16_0

PD1/SOT4_0/TIOB14_0/INT31_1/MAD15_0

PD0/SCK4_0/TIOB10_2/INT30_1/MAD14_0

PCF/CTS4_0/TIOB08_2/MAD13_0

PCE/RTS4_0/TIOB06_1/MAD12_0

PCD/MAD11_0

PCC/MAD10_0

PCB/MAD09_0

VSS

VCC

PCA/SCK15_0/MAD08_0

PC9/SOT15_0/MAD07_0

PC8/SIN15_0/MAD06_0

PC7/CROUT_1/RTCCO_0/SUBOUT_0/MAD05_0

PC6/SCK14_0/TIOA14_0/MAD04_0

PC5/SOT14_0/TIOA10_2/MAD03_0

PC4/SIN14_0/TIOA08_2/CEC0_1/MAD02_0

PC3/TIOA06_1/MAD01_0

PC2/SCK13_0/MAD00_0

PC1/DA1_0/SOT13_0/MCSX4_0

PC0/DA0_0/SIN13_0/MCSX5_0

P95/TIOB13_0/INT27_0

P94/SCK5_1/TIOB12_0/INT26_0

P93/SOT5_1/TIOB11_0

P92/SIN5_1/TIOB10_0

P91/TIOB09_0/INT31_0

P90/TIOB08_0/INT30_0

P04/TDO/SWO

P03/TMS/SWDIO

P02/TDI

P01/TCK/SWCLK

P00/TRSTX

VCC

176

175

174

173

172

171

170

169

168

167

166

165

164

163

162

161

160

159

158

157

156

155

154

153

152

151

150

149

148

147

146

145

144

143

142

141

140

139

138

137

136

135

134

133

VCC

132

VSS

PA0/SIN8_0/TIOA08_0/MAD21_0

131

VCC

PA1/SOT8_0/TIOA09_0/MAD22_0

130

P83/MCSX6_0

PA2/SCK8_0/TIOA10_0/MAD23_0

129

P82/MCSX7_0

PA3/SIN9_0/TIOA11_0/MAD24_0

128

PF6/NMIX/WKUP0

PA4/SOT9_0/TIOA12_0/INT03_0

127

P20/AIN1_1/INT05_0/CROUT_0

PA5/SCK9_0/TIOA13_0/INT10_2

126

P21/SIN0_0/BIN1_1/INT06_1

P05/TRACED0/SIN4_2/TIOA05_2/INT00_1

125

P22/AN23/SOT0_0/ZIN1_1/TIOB07_1

P06/TRACED1/SOT4_2/TIOB05_2/INT01_1

124

P23/AN22/SCK0_0/RTO00_1/TIOA07_1

P07/TRACED2/ADTG_0/SCK4_2

123

P24/AN21/SIN2_1/RTO01_1/INT01_2

P08/TRACED3/CTS4_2/TIOA00_2

122

P25/AN20/SOT2_1/RTO02_1

P09/TRACECLK/RTS4_2/TIOB00_2

121

P26/AN19/SCK2_1/RTO03_1

P50/SIN3_1/AIN0_2/INT00_0/MOEX_0

120

P27/AN18/SCK12_0/RTO04_1/INT02_2

P51/SOT3_1/BIN0_2/INT01_0/MWEX_0

119

P28/AN17/ADTG_4/SOT12_0/RTO05_1/INT09_0

P52/SCK3_1/ZIN0_2/INT02_0/MDQM0_0

118

P29/AN16/SIN12_0

P53/SIN6_0/TIOA01_2/INT07_2/MDQM1_0

117

AVRH

P54/SOT6_0/TIOB01_2/MALE_0

116

AVRL

P55/ADTG_1/SCK6_0/MRDY_0

115

AVSS

P56/SIN1_0/TIOA09_2/INT08_2/CEC1_1/MNALE_0

114

AVCC

P57/SOT1_0/TIOB09_2/INT16_1/MNCLE_0

113

PB7/TIOB12_1/INT23_0

P58/SCK1_0/TIOA11_2/INT17_1/MNWEX_0

112

PB6/SCK0_2/TIOA12_1/INT22_0

P59/SIN7_0/TIOB11_2/INT09_2/MNREX_0

111

PB5/SOT0_2/TIOB11_1/INT21_0

P5A/SOT7_0/TIOA13_1/INT18_1/MCSX0_0

110

PB4/SIN0_2/TIOA11_1/INT20_0

P5B/SCK7_0/TIOB13_1/INT19_1/MCSX1_0

109

PB3/TIOB10_1/INT19_0

P5C/TIOA06_2/INT28_0

108

PB2/SCK7_2/TIOA10_1/INT18_0

P5D/TIOB06_2/INT29_0

107

PB1/SOT7_2/TIOB09_1/INT17_0

VSS

106

PB0/SIN7_2/TIOA09_1/INT16_0

P30/AIN0_0/TIOB00_1/INT03_2/WKUP4

105

P1F/AN15/ADTG_5/FRCK0_1/TIOB15_2/INT29_1

P31/SCK6_1/BIN0_0/TIOB01_1/INT04_2

104

P1E/AN14/RTS4_1/DTTI0X_1/TIOA15_2/INT28_1

P32/SOT6_1/ZIN0_0/TIOB02_1/INT05_2

103

P1D/AN13/CTS4_1/IC03_1/TIOB14_2/INT27_1

P33/ADTG_6/SIN6_1/TIOB03_1/INT04_0

102

P1C/AN12/SCK4_1/IC02_1/TIOA14_2/INT26_1

P34/FRCK0_0/TIOB04_1

101

P1B/AN11/SOT4_1/IC01_1/TIOB13_2/INT25_1

P35/IC03_0/TIOB05_1/INT08_1

100

P1A/AN10/SIN4_1/IC00_1/TIOA13_2/INT05_1

P36/SIN5_2/IC02_0/TIOA12_2/INT09_1

P19/AN09/SCK2_2/INT22_1

P37/SOT5_2/IC01_0/TIOB12_2/INT10_1

P18/AN08/SOT2_2/INT21_1

P38/SCK5_2/IC00_0/INT11_1

P17/AN07/SIN2_2/INT04_1

P39/ADTG_2/DTTI0X_0/RTCCO_2/SUBOUT_2

P16/AN06/SCK0_1/INT20_1

P3A/RTO00_0/TIOA00_1

P15/AN05/SOT0_1/IC03_2

P3B/RTO01_0/TIOA01_1

P14/AN04/SIN0_1/IC02_2/INT03_1

P3C/RTO02_0/TIOA02_1

P13/AN03/SCK1_1/IC01_2/RTCCO_1/SUBOUT_1

P3D/RTO03_0/TIOA03_1

P12/AN02/SOT1_1/IC00_2

P3E/RTO04_0/TIOA04_1

P11/AN01/SIN1_1/FRCK0_2/INT02_1/WKUP1

P3F/RTO05_0/TIOA05_1

P10/AN00

VSS

VCC

P40/SIN10_0/TIOA00_0/INT12_1/MCSX2_0

P41/SOT10_0/TIOA01_0/INT13_1/MCSX3_0

P42/SCK10_0/TIOA02_0/MCLKOUT_0

P43/ADTG_7/SIN11_0/TIOA03_0

P44/SOT11_0/TIOA04_0

P45/SCK11_0/TIOA05_0

VSS

VCC

P46/X0A

P47/X1A

INITX

P48/SIN3_2/INT14_1

P49/SOT3_2/AIN0_1/TIOB00_0

P4A/SCK3_2/BIN0_1/TIOB01_0/MADATA00_0

P4B/IGTRG0_0/ZIN0_1/TIOB02_0/MADATA01_0

P4C/SCK7_1/AIN1_2/TIOB03_0/MADATA02_0

P4D/SOT7_1/BIN1_2/TIOB04_0/MADATA03_0

P4E/SIN7_1/ZIN1_2/TIOB05_0/INT06_2/MADATA04_0

P70/TIOA04_2/MADATA05_0

P71/TIOB04_2/INT13_2/MADATA06_0

P72/SIN2_0/INT14_2/WKUP2/MADATA07_0

P73/SOT2_0/INT15_2/MADATA08_0

P74/SCK2_0/MADATA09_0

P75/ADTG_8/SIN3_0/INT07_1/MADATA10_0

P76/SOT3_0/TIOA07_2/INT11_2/MADATA11_0

P77/SCK3_0/TIOB07_2/INT12_2/MADATA12_0

P78/AIN1_0/TIOA15_0/MADATA13_0

P79/BIN1_0/TIOB15_0/INT23_1/MADATA14_0

P7A/ZIN1_0/INT24_1/MADATA15_0

P7B/TIOB07_0/INT10_0

P7C/TIOA07_0/INT11_0

P7D/TIOA14_1/INT12_0

P7E/TIOB14_1/INT24_0

P7F/TIOA15_1/INT25_0

PF0/SIN1_2/TIOB15_1/INT13_0/CEC0_0

PF1/SOT1_2/TIOA08_1/INT14_0

PF2/SCK1_2/TIOB08_1/INT15_0

PE0/MD1

MD0

PE2/X0

PE3/X1

VSS

LQFP - 176

<Note>

The number after the underscore ("_") in pin names such as XXX_1 and XXX_2 indicates the relocated
port number. For these pins, there are multiple pins that provide the same function for the same channel.
Use the extended port function register (EPFR) to select the pin.

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series



FPT-144P-M08

(TOP VIEW)

VSS

P81/UDP0

P80/UDM0

USBVCC

PF5/IGTRG0_1/INT08_0/WKUP3/CEC1_0

P60/SIN5_0/TIOA02_2/INT15_1/WKUP5/MAD20_0

P61/UHCONX/SOT5_0/TIOB02_2/MAD19_0

P62/ADTG_3/SCK5_0/MAD18_0

PD3/TIOB03_2/MAD17_0

PD2/SIN4_0/TIOA03_2/INT00_2/MAD16_0

PD1/SOT4_0/TIOB14_0/INT31_1/MAD15_0

PD0/SCK4_0/TIOB10_2/INT30_1/MAD14_0

PCF/CTS4_0/TIOB08_2/MAD13_0

PCE/RTS4_0/TIOB06_1/MAD12_0

PCD/MAD11_0

PCC/MAD10_0

PCB/MAD09_0

VSS

VCC

PCA/SCK15_0/MAD08_0

PC9/SOT15_0/MAD07_0

PC8/SIN15_0/MAD06_0

PC7/CROUT_1/RTCCO_0/SUBOUT_0/MAD05_0

PC6/SCK14_0/TIOA14_0/MAD04_0

PC5/SOT14_0/TIOA10_2/MAD03_0

PC4/SIN14_0/TIOA08_2/CEC0_1/MAD02_0

PC3/TIOA06_1/MAD01_0

PC2/SCK13_0/MAD00_0

PC1/DA1_0/SOT13_0/MCSX4_0

PC0/DA0_0/SIN13_0/MCSX5_0

P04/TDO/SWO

P03/TMS/SWDIO

P02/TDI

P01/TCK/SWCLK

P00/TRSTX

VCC

144

143

142

141

140

139

138

137

136

135

134

133

132

131

130

129

128

127

126

125

124

123

122

121

120

119

118

117

116

115

114

113

112

111

110

109

VCC

108

VSS

PA0/SIN8_0/TIOA08_0/MAD21_0

107

VCC

PA1/SOT8_0/TIOA09_0/MAD22_0

106

P83/MCSX6_0

PA2/SCK8_0/TIOA10_0/MAD23_0

105

P82/MCSX7_0

PA3/SIN9_0/TIOA11_0/MAD24_0

104

PF6/NMIX/WKUP0

PA4/SOT9_0/TIOA12_0/INT03_0

103

P20/AIN1_1/INT05_0/CROUT_0

PA5/SCK9_0/TIOA13_0/INT10_2

102

P21/SIN0_0/BIN1_1/INT06_1

P05/TRACED0/SIN4_2/TIOA05_2/INT00_1

101

P22/AN23/SOT0_0/ZIN1_1/TIOB07_1

P06/TRACED1/SOT4_2/TIOB05_2/INT01_1

100

P23/AN22/SCK0_0/RTO00_1/TIOA07_1

P07/TRACED2/ADTG_0/SCK4_2

P24/AN21/SIN2_1/RTO01_1/INT01_2

P08/TRACED3/CTS4_2/TIOA00_2

P25/AN20/SOT2_1/RTO02_1

P09/TRACECLK/RTS4_2/TIOB00_2

P26/AN19/SCK2_1/RTO03_1

P50/SIN3_1/AIN0_2/INT00_0/MOEX_0

P27/AN18/SCK12_0/RTO04_1/INT02_2

P51/SOT3_1/BIN0_2/INT01_0/MWEX_0

P28/AN17/ADTG_4/SOT12_0/RTO05_1/INT09_0

P52/SCK3_1/ZIN0_2/INT02_0/MDQM0_0

P29/AN16/SIN12_0

P53/SIN6_0/TIOA01_2/INT07_2/MDQM1_0

AVRH

P54/SOT6_0/TIOB01_2/MALE_0

AVRL

P55/ADTG_1/SCK6_0/MRDY_0

AVSS

P56/SIN1_0/TIOA09_2/INT08_2/CEC1_1/MNALE_0

AVCC

P57/SOT1_0/TIOB09_2/INT16_1/MNCLE_0

P1F/AN15/ADTG_5/FRCK0_1/TIOB15_2/INT29_1

P58/SCK1_0/TIOA11_2/INT17_1/MNWEX_0

P1E/AN14/RTS4_1/DTTI0X_1/TIOA15_2/INT28_1

P59/SIN7_0/TIOB11_2/INT09_2/MNREX_0

P1D/AN13/CTS4_1/IC03_1/TIOB14_2/INT27_1

P5A/SOT7_0/TIOA13_1/INT18_1/MCSX0_0

P1C/AN12/SCK4_1/IC02_1/TIOA14_2/INT26_1

P5B/SCK7_0/TIOB13_1/INT19_1/MCSX1_0

P1B/AN11/SOT4_1/IC01_1/TIOB13_2/INT25_1

VSS

P1A/AN10/SIN4_1/IC00_1/TIOA13_2/INT05_1

P36/SIN5_2/IC02_0/TIOA12_2/INT09_1

P19/AN09/SCK2_2/INT22_1

P37/SOT5_2/IC01_0/TIOB12_2/INT10_1

P18/AN08/SOT2_2/INT21_1

P38/SCK5_2/IC00_0/INT11_1

P17/AN07/SIN2_2/INT04_1

P39/ADTG_2/DTTI0X_0/RTCCO_2/SUBOUT_2

P16/AN06/SCK0_1/INT20_1

P3A/RTO00_0/TIOA00_1

P15/AN05/SOT0_1/IC03_2

P3B/RTO01_0/TIOA01_1

P14/AN04/SIN0_1/IC02_2/INT03_1

P3C/RTO02_0/TIOA02_1

P13/AN03/SCK1_1/IC01_2/RTCCO_1/SUBOUT_1

P3D/RTO03_0/TIOA03_1

P12/AN02/SOT1_1/IC00_2

P3E/RTO04_0/TIOA04_1

P11/AN01/SIN1_1/FRCK0_2/INT02_1/WKUP1

P3F/RTO05_0/TIOA05_1

P10/AN00

VSS

VCC

P40/SIN10_0/TIOA00_0/INT12_1/MCSX2_0

P41/SOT10_0/TIOA01_0/INT13_1/MCSX3_0

P42/SCK10_0/TIOA02_0/MCLKOUT_0

P43/ADTG_7/SIN11_0/TIOA03_0

P44/SOT11_0/TIOA04_0

P45/SCK11_0/TIOA05_0

VSS

VCC

P46/X0A

P47/X1A

INITX

P48/SIN3_2/INT14_1

P49/SOT3_2/AIN0_1/TIOB00_0

P4A/SCK3_2/BIN0_1/TIOB01_0/MADATA00_0

P4B/IGTRG0_0/ZIN0_1/TIOB02_0/MADATA01_0

P4C/SCK7_1/AIN1_2/TIOB03_0/MADATA02_0

P4D/SOT7_1/BIN1_2/TIOB04_0/MADATA03_0

P4E/SIN7_1/ZIN1_2/TIOB05_0/INT06_2/MADATA04_0

P70/TIOA04_2/MADATA05_0

P71/TIOB04_2/INT13_2/MADATA06_0

P72/SIN2_0/INT14_2/WKUP2/MADATA07_0

P73/SOT2_0/INT15_2/MADATA08_0

P74/SCK2_0/MADATA09_0

P75/ADTG_8/SIN3_0/INT07_1/MADATA10_0

P76/SOT3_0/TIOA07_2/INT11_2/MADATA11_0

P77/SCK3_0/TIOB07_2/INT12_2/MADATA12_0

P78/AIN1_0/TIOA15_0/MADATA13_0

P79/BIN1_0/TIOB15_0/INT23_1/MADATA14_0

P7A/ZIN1_0/INT24_1/MADATA15_0

PE0/MD1

MD0

PE2/X0

PE3/X1

VSS

LQFP - 144

<Note>

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series



BGA-192P-M06

(TOP VIEW)

UDP0

UDM0

USB
VCC

VSS

PCD

PCB

VSS

VCC

PC8

VSS

TCK

VCC

VSS

PA0

PF5

PF3

P61

PD1

PCA

PC1

P95

P92

TDO

TMS

TRSTX

VSS

VCC

PA1

PA2

PF4

P60

PD2

PCC

PC5

PC0

P93

P90

TDI

PF6

VCC

PA5

PA4

P05

P06

PA3

PD3

PCE

PC6

PC2

P94

P91

P21

P20

P83

VSS

P07

P08

P09

P50

P62

PCF

PC7

PC3

P25

P24

P23

P22

P82

P51

P52

P53

P54

P55

P56

PD0

PC9

PC4

P29

P28

P27

P26

AVRH

VSS

P57

P58

P59

P5A

P5B

VSS

PB7

PB6

PB5

PB4

PB3

AVRL

P5C

P5D

P30

P31

P32

P33

VSS

P1F

P1E

PB2

PB1

PB0

AVSS

VSS

P37

P36

P35

P34

P70

VSS

P76

P1D

P1C

P1B

P1A

P19

AVCC

P38

P39

P3A

P3B

P4A

P4E

VSS

P74

P7B

P7F

P18

P16

P15

P17

P3C

P3D

P3E

P43

P49

P4D

VSS

P73

P7A

P7E

P14

P13

P12

VSS

P3F

P42

P44

P48

P4C

VSS

P72

P79

PF0

PF2

P11

P10

VCC

P40

P41

P45

INITX

P4B

VSS

P71

P78

P7D

PF1

MD0

MD1

VSS

VCC

X0A

X1A

VSS

P75

P77

P7C

VSS

<Note>

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series



LIST OF PIN FUNCTIONS



List of pin numbers

Pin No

Pin Name

I/O circuit

type

Pin state

type

LQFP-176

LQFP-144

BGA-192

VCC

PA0

SIN8_0

TIOA08_0
MAD21_0

PA1

SOT8_0

TIOA09_0
MAD22_0

PA2

SCK8_0

TIOA10_0
MAD23_0

PA3

SIN9_0

TIOA11_0
MAD24_0

PA4

SOT9_0

TIOA12_0

INT03_0

PA5

SCK9_0

TIOA13_0

INT10_2

P05

TRACED0

SIN4_2

TIOA05_2

INT00_1

P06

TRACED1

SOT4_2

TIOB05_2

INT01_1

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

Pin No

Pin Name

I/O circuit

type

Pin state

type

LQFP-176

LQFP-144

BGA-192

P53

SIN6_0

TIOA01_2

INT07_2

MDQM1_0

P54

SOT6_0

TIOB01_2

MALE_0

P55

ADTG_1

SCK6_0

MRDY_0

P56

SIN1_0

TIOA09_2

INT08_2

CEC1_1

MNALE_0

P57

SOT1_0

TIOB09_2

INT16_1

MNCLE_0

P58

SCK1_0

TIOA11_2

INT17_1

MNWEX_0

P59

SIN7_0

TIOB11_2

INT09_2

MNREX_0

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

Pin No

Pin name

I/O circuit

type

Pin state

type

LQFP-176

LQFP-144

BGA-192

P5A

SOT7_0

TIOA13_1

INT18_1

MCSX0_0

P5B

SCK7_0

TIOB13_1

INT19_1

MCSX1_0

P5C

TIOA06_2

INT28_0

P5D

TIOB06_2

INT29_0

VSS

P30

AIN0_0

TIOB00_1

INT03_2

WKUP4

P31

SCK6_1

BIN0_0

TIOB01_1

INT04_2

P32

SOT6_1

ZIN0_0

TIOB02_1

INT05_2

P33

ADTG_6

SIN6_1

TIOB03_1

INT04_0

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

Pin No

Pin name

I/O circuit

type

Pin state

type

LQFP-176

LQFP-144

BGA-192

P34

FRCK0_0

TIOB04_1

P35

IC03_0

TIOB05_1

INT08_1

P36

SIN5_2

IC02_0

TIOA12_2

INT09_1

P37

SOT5_2

IC01_0

TIOB12_2

INT10_1

P38

SCK5_2

IC00_0

INT11_1

P39

ADTG_2

DTTI0X_0

RTCCO_2

SUBOUT_2

P3A

RTO00_0

TIOA00_1

P3B

RTO01_0

TIOA01_1

P3C

RTO02_0

TIOA02_1

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

Pin No

Pin name

I/O circuit

type

Pin state

type

LQFP-176

LQFP-144

BGA-192

P3D

RTO03_0

TIOA03_1

P3E

RTO04_0

TIOA04_1

P3F

RTO05_0

TIOA05_1

VSS

VCC

P40

SIN10_0

TIOA00_0

INT12_1

MCSX2_0

P41

SOT10_0

TIOA01_0

INT13_1

MCSX3_0

P42

SCK10_0

TIOA02_0

MCLKOUT_0

P43

ADTG_7

SIN11_0

TIOA03_0

P44

SOT11_0

TIOA04_0

P45

SCK11_0

TIOA05_0

A11

VSS

VCC

P46

X0A

P47

X1A

INITX

P48

SIN3_2

INT14_1

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

Pin No

Pin name

I/O circuit

type

Pin state

type

LQFP-176

LQFP-144

BGA-192

P49

SOT3_2

AIN0_1

TIOB00_0

P4A

SCK3_2

BIN0_1

TIOB01_0

MADATA00_0

P4B

IGTRG0_0

ZIN0_1

TIOB02_0

MADATA01_0

P4C

SCK7_1

AIN1_2

TIOB03_0

MADATA02_0

P4D

SOT7_1

BIN1_2

TIOB04_0

MADATA03_0

P4E

SIN7_1
ZIN1_2

TIOB05_0

INT06_2

MADATA04_0

P70

TIOA04_2

MADATA05_0

P71

TIOB04_2

INT13_2

MADATA06_0

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

Pin No

Pin name

I/O circuit

type

Pin state

type

LQFP-176

LQFP-144

BGA-192

P72

SIN2_0

INT14_2

WKUP2

MADATA07_0

P73

SOT2_0

INT15_2

MADATA08_0

P74

SCK2_0

MADATA09_0

P75

ADTG_8

SIN3_0

INT07_1

MADATA10_0

P76

SOT3_0

TIOA07_2

INT11_2

MADATA11_0

P77

SCK3_0

TIOB07_2

INT12_2

MADATA12_0

P78

AIN1_0

TIOA15_0

MADATA13_0

P79

BIN1_0

TIOB15_0

INT23_1

MADATA14_0

VSS

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

Pin No

Pin name

I/O circuit

type

Pin state

type

LQFP-176

LQFP-144

BGA-192

P7A

ZIN1_0

INT24_1

MADATA15_0

P7B

TIOB07_0

INT10_0

P10

P7C

TIOA07_0

INT11_0

N10

P7D

TIOA14_1

INT12_0

L10

P7E

TIOB14_1

INT24_0

K10

P7F

TIOA15_1

INT25_0

M10

PF0

SIN1_2

TIOB15_1

INT13_0

CEC0_0

N11

PF1

SOT1_2

TIOA08_1

INT14_0

M11

PF2

SCK1_2

TIOB08_1

INT15_0

N13

PE0

MD1

N12

MD0

P12

PE2

P13

PE3

VSS

M14

VCC

VSS

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

Pin No

Pin name

I/O circuit

type

Pin state

type

LQFP-176

LQFP-144

BGA-192

M13

P10

AN00

M12

P11

AN01

SIN1_1

FRCK0_2

INT02_1

WKUP1

L13

P12

AN02

SOT1_1

IC00_2

L12

P13

AN03

SCK1_1

IC01_2

RTCCO_1

SUBOUT_1

L11

P14

AN04

SIN0_1

IC02_2

INT03_1

K13

P15

AN05

SOT0_1

IC03_2

K12

P16

AN06

SCK0_1

INT20_1

K14

P17

AN07

SIN2_2

INT04_1

VSS

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

Pin No

Pin name

I/O circuit

type

Pin state

type

LQFP-176

LQFP-144

BGA-192

K11

P18

AN08

SOT2_2

INT21_1

J13

P19

AN09

SCK2_2

INT22_1

100

J12

P1A

AN10

SIN4_1

IC00_1

TIOA13_2

INT05_1

101

J11

P1B

AN11

SOT4_1

IC01_1

TIOB13_2

INT25_1

102

J10

P1C

AN12

SCK4_1

IC02_1

TIOA14_2

INT26_1

103

P1D

AN13

CTS4_1

IC03_1

TIOB14_2

INT27_1

104

H10

P1E

AN14

RTS4_1

DTTI0X_1

TIOA15_2

INT28_1

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

Pin No

Pin name

I/O circuit

type

Pin state

type

LQFP-176

LQFP-144

BGA-192

105

P1F

AN15

ADTG_5

FRCK0_1

TIOB15_2

INT29_1

106

H13

PB0

SIN7_2

TIOA09_1

INT16_0

107

H12

PB1

SOT7_2

TIOB09_1

INT17_0

108

H11

PB2

SCK7_2

TIOA10_1

INT18_0

109

G13

PB3

TIOB10_1

INT19_0

110

G12

PB4

SIN0_2

TIOA11_1

INT20_0

111

G11

PB5

SOT0_2

TIOB11_1

INT21_0

112

G10

PB6

SCK0_2

TIOA12_1

INT22_0

113

PB7

TIOB12_1

INT23_0

114

J14

AVCC

115

H14

AVSS

VSS

P11

VSS

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

Pin No

Pin name

I/O circuit

type

Pin state

type

LQFP-176

LQFP-144

BGA-192

124

100

E12

P23

AN22

SCK0_0

RTO00_1

TIOA07_1

125

101

E13

P22

AN23

SOT0_0

ZIN1_1

TIOB07_1

126

102

D12

P21

SIN0_0

BIN1_1

INT06_1

127

103

D13

P20

AIN1_1

INT05_0

CROUT_0

128

104

C13

PF6

NMIX

WKUP0

129

105

E14

P82

MCSX7_0

130

106

D14

P83

MCSX6_0

131

107

C14

VCC

132

108

VSS

133

109

A13

VCC

134

110

B13

P00

TRSTX

135

111

A12

P01

TCK

SWCLK

136

112

C12

P02

TDI

137

113

B12

P03

TMS

SWDIO

138

114

B11

P04

TDO

SWO

139

C11

P90

TIOB08_0

INT30_0

N14

VSS

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

Pin No

Pin name

I/O circuit

type

Pin state

type

LQFP-176

LQFP-144

BGA-192

140

D11

P91

TIOB09_0

INT31_0

141

B10

P92

SIN5_1

TIOB10_0

142

C10

P93

SOT5_1

TIOB11_0

143

D10

P94

SCK5_1

TIOB12_0

INT26_0

144

P95

TIOB13_0

INT27_0

145

115

PC0

DA0_0

SIN13_0

MCSX5_0

146

116

PC1

DA1_0

SOT13_0

MCSX4_0

147

117

PC2

SCK13_0

MAD00_0

148

118

PC3

TIOA06_1
MAD01_0

149

119

PC4

SIN14_0

TIOA08_2

CEC0_1

MAD02_0

150

120

PC5

SOT14_0

TIOA10_2
MAD03_0

L14

VSS

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

Pin No

Pin name

I/O circuit

type

Pin state

type

LQFP-176

LQFP-144

BGA-192

151

121

PC6

SCK14_0

TIOA14_0
MAD04_0

152

122

PC7

CROUT_1

RTCCO_0

SUBOUT_0

MAD05_0

153

123

A10

PC8

SIN15_0

MAD06_0

154

124

PC9

SOT15_0

MAD07_0

155

125

PCA

SCK15_0

MAD08_0

156

126

VCC

157

127

VSS

158

128

PCB

MAD09_0

159

129

PCC

MAD10_0

160

130

PCD

MAD11_0

161

131

PCE

RTS4_0

TIOB06_1
MAD12_0

162

132

PCF

CTS4_0

TIOB08_2
MAD13_0

163

133

PD0

SCK4_0

TIOB10_2

INT30_1

MAD14_0

164

134

PD1

SOT4_0

TIOB14_0

INT31_1

MAD15_0

B14

VSS

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

Pin No

Pin name

I/O circuit

type

Pin state

type

LQFP-176

LQFP-144

BGA-192

165

135

PD2

SIN4_0

TIOA03_2

INT00_2

MAD16_0

166

136

PD3

TIOB03_2
MAD17_0

167

137

P62

ADTG_3

SCK5_0

MAD18_0

168

138

P61

UHCONX

SOT5_0

TIOB02_2
MAD19_0

169

139

P60

SIN5_0

TIOA02_2

INT15_1

WKUP5

MAD20_0

170

PF3

SIN6_2

TIOA06_0

INT06_0

171

PF4

SOT6_2

TIOB06_0

INT07_0

172

140

PF5

IGTRG0_1

INT08_0

WKUP3
CEC1_0

SCK6_2

173

141

USBVCC

174

142

P80

UDM0

175

143

P81

UDP0

176

144

VSS

: 5V tolerant I/O

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series



List of pin functions

The number after the underscore ("_") in pin names such as XXX_1 and XXX_2 indicates the relocated port
number. For these pins, there are multiple pins that provide the same function for the same channel. Use the
extended port function register (EPFR) to select the pin.

function

Pin name

Function description

Pin No

LQFP-176

LQFP-144 BGA-192

ADC

ADTG_0

A/D converter external trigger input
pin

ADTG_1

ADTG_2

ADTG_3

167

137

ADTG_4

119

F11

ADTG_5

105

ADTG_6

ADTG_7

ADTG_8

AN00

A/D converter analog input pin.
ANxx describes ADC ch.xx.

M13

AN01

M12

AN02

L13

AN03

L12

AN04

L11

AN05

K13

AN06

K12

AN07

K14

AN08

K11

AN09

J13

AN10

100

J12

AN11

101

J11

AN12

102

J10

AN13

103

AN14

104

H10

AN15

105

AN16

118

F10

AN17

119

F11

AN18

120

F12

AN19

121

F13

AN20

122

E10

AN21

123

E11

AN22

124

100

E12

AN23

125

101

E13

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

function

Pin name

Function description

Pin No

LQFP-176

LQFP-144 BGA-192

Base Timer

TIOA00_0

Base timer ch.0 TIOA pin

TIOA00_1

TIOA00_2

TIOB00_0

Base timer ch.0 TIOB pin

TIOB00_1

TIOB00_2

Base Timer

TIOA01_0

Base timer ch.1 TIOA pin

TIOA01_1

TIOA01_2

TIOB01_0

Base timer ch.1 TIOB pin

TIOB01_1

TIOB01_2

Base Timer

TIOA02_0

Base timer ch.2 TIOA pin

TIOA02_1

TIOA02_2

169

139

TIOB02_0

Base timer ch.2 TIOB pin

TIOB02_1

TIOB02_2

168

138

Base Timer

TIOA03_0

Base timer ch.3 TIOA pin

TIOA03_1

TIOA03_2

165

135

TIOB03_0

Base timer ch.3 TIOB pin

TIOB03_1

TIOB03_2

166

136

Base Timer

TIOA04_0

Base timer ch.4 TIOA pin

TIOA04_1

TIOA04_2

TIOB04_0

Base timer ch.4 TIOB pin

TIOB04_1

TIOB04_2

Base Timer

TIOA05_0

Base timer ch.5 TIOA pin

TIOA05_1

TIOA05_2

TIOB05_0

Base timer ch.5 TIOB pin

TIOB05_1

TIOB05_2

Base Timer

TIOA06_0

Base timer ch.6 TIOA pin

170

TIOA06_1

148

118

TIOA06_2

TIOB06_0

Base timer ch.6 TIOB pin

171

TIOB06_1

161

131

TIOB06_2

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

function

Pin name

Function description

Pin No

LQFP-176

LQFP-144 BGA-192

Base Timer

TIOA07_0

Base timer ch.7 TIOA pin

P10

TIOA07_1

124

100

E12

TIOA07_2

TIOB07_0

Base timer ch.7 TIOB pin

TIOB07_1

125

101

E13

TIOB07_2

Base Timer

TIOA08_0

Base timer ch.8 TIOA pin

TIOA08_1

N11

TIOA08_2

149

119

TIOB08_0

Base timer ch.8 TIOB pin

139

C11

TIOB08_1

M11

TIOB08_2

162

132

Base Timer

TIOA09_0

Base timer ch.9 TIOA pin

TIOA09_1

106

H13

TIOA09_2

TIOB09_0

Base timer ch.9 TIOB pin

140

D11

TIOB09_1

107

H12

TIOB09_2

Base Timer

TIOA10_0

Base timer ch.10 TIOA pin

TIOA10_1

108

H11

TIOA10_2

150

120

TIOB10_0

Base timer ch.10 TIOB pin

141

B10

TIOB10_1

109

G13

TIOB10_2

163

133

Base Timer

TIOA11_0

Base timer ch.11 TIOA pin

TIOA11_1

110

G12

TIOA11_2

TIOB11_0

Base timer ch.11 TIOB pin

142

C10

TIOB11_1

111

G11

TIOB11_2

Base Timer

TIOA12_0

Base timer ch.12 TIOA pin

TIOA12_1

112

G10

TIOA12_2

TIOB12_0

Base timer ch.12 TIOB pin

143

D10

TIOB12_1

113

TIOB12_2

Base Timer

TIOA13_0

Base timer ch.13 TIOA pin

TIOA13_1

TIOA13_2

100

J12

TIOB13_0

Base timer ch.13 TIOB pin

144

TIOB13_1

TIOB13_2

101

J11

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

function

Pin name

Function description

Pin No

LQFP-176

LQFP-144 BGA-192

Base Timer

TIOA14_0

Base timer ch.14 TIOA pin

151

121

TIOA14_1

N10

TIOA14_2

102

J10

TIOB14_0

Base timer ch.14 TIOB pin

164

134

TIOB14_1

L10

TIOB14_2

103

Base Timer

TIOA15_0

Base timer ch.15 TIOA pin

TIOA15_1

K10

TIOA15_2

104

H10

TIOB15_0

Base timer ch.15 TIOB pin

TIOB15_1

M10

TIOB15_2

105

Debugger

SWCLK

Serial wire debug interface clock input

135

111

A12

SWDIO

Serial wire debug interface data input /
output

137

113

B12

SWO

Serial wire viewer output

138

114

B11

TCK

J-TAG test clock input

135

111

A12

TDI

J-TAG test data input

136

112

C12

TDO

J-TAG debug data output

138

114

B11

TMS

J-TAG test mode state input/output

137

113

B12

TRACECLK

Trace CLK output of ETM

TRACED0

Trace data output of ETM

TRACED1

TRACED2

TRACED3

TRSTX

J-TAG test reset Input

134

110

B13

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

function

Pin name

Function description

Pin No

LQFP-176

LQFP-144

BGA-192

External

Bus

MAD00_0

External bus interface address bus

147

117

MAD01_0

148

118

MAD02_0

149

119

MAD03_0

150

120

MAD04_0

151

121

MAD05_0

152

122

MAD06_0

153

123

A10

MAD07_0

154

124

MAD08_0

155

125

MAD09_0

158

128

MAD10_0

159

129

MAD11_0

160

130

MAD12_0

161

131

MAD13_0

162

132

MAD14_0

163

133

MAD15_0

164

134

MAD16_0

165

135

MAD17_0

166

136

MAD18_0

167

137

MAD19_0

168

138

MAD20_0

169

139

MAD21_0

MAD22_0

MAD23_0

MAD24_0

MCSX0_0

External bus interface chip select
output pin

MCSX1_0

MCSX2_0

MCSX3_0

MCSX4_0

146

116

MCSX5_0

145

115

MCSX6_0

130

106

D14

MCSX7_0

129

105

E14

MDQM0_0

External bus interface byte mask
signal output

MDQM1_0

MOEX_0

External bus interface read enable
signal for SRAM

MWEX_0

External bus interface write enable
signal for SRAM

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

function

Pin name

Function description

Pin No

LQFP-176

LQFP-144

BGA-192

External

Bus

MNALE_0

External bus interface ALE signal to
control NAND Flash output pin

MNCLE_0

External bus interface CLE signal to
control NAND Flash output pin

MNREX_0

External bus interface read enable
signal to control NAND Flash

MNWEX_0

External bus interface write enable
signal to control NAND Flash

MADATA00_0

External bus interface data bus
(Address / data multiplex bus)

MADATA01_0

MADATA02_0

MADATA03_0

MADATA04_0

MADATA05_0

MADATA06_0

MADATA07_0

MADATA08_0

MADATA09_0

MADATA10_0

MADATA11_0

MADATA12_0

MADATA13_0

MADATA14_0

MADATA15_0

MALE_0

External bus interface Address Latch
enable output signal for multiplex

MRDY_0

External bus interface external RDY
input signal

MCLKOUT_0

External bus interface external clock
output

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

function

Pin name

Function description

Pin No

LQFP-176

LQFP-144

BGA-192

External

Interrupt

INT00_0

External interrupt request 00 input
pin

INT00_1

INT00_2

165

135

INT01_0

External interrupt request 01 input
pin

INT01_1

INT01_2

123

E11

INT02_0

External interrupt request 02 input
pin

INT02_1

M12

INT02_2

120

F12

INT03_0

External interrupt request 03 input
pin

INT03_1

L11

INT03_2

INT04_0

External interrupt request 04 input
pin

INT04_1

K14

INT04_2

INT05_0

External interrupt request 05 input
pin

127

103

D13

INT05_1

100

J12

INT05_2

INT06_0

External interrupt request 06 input
pin

170

INT06_1

126

102

D12

INT06_2

INT07_0

External interrupt request 07 input
pin

171

INT07_1

INT07_2

INT08_0

External interrupt request 08 input
pin

172

140

INT08_1

INT08_2

INT09_0

External interrupt request 09 input
pin

119

F11

INT09_1

INT09_2

INT10_0

External interrupt request 10 input
pin

INT10_1

INT10_2

INT11_0

External interrupt request 11 input
pin

P10

INT11_1

INT11_2

INT12_0

External interrupt request 12 input
pin

N10

INT12_1

INT12_2

INT13_0

External interrupt request 13 input
pin

M10

INT13_1

INT13_2

INT14_0

External interrupt request 14 input
pin

N11

INT14_1

INT14_2

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

function

Pin name

Function description

Pin No

LQFP-176

LQFP-144

BGA-192

External

Interrupt

INT15_0

External interrupt request 15 input
pin

M11

INT15_1

169

139

INT15_2

INT16_0

External interrupt request 16 input
pin

106

H13

INT16_1

INT17_0

External interrupt request 17 input
pin

107

H12

INT17_1

INT18_0

External interrupt request 18 input
pin

108

H11

INT18_1

INT19_0

External interrupt request 19 input
pin

109

G13

INT19_1

INT20_0

External interrupt request 20 input
pin

110

G12

INT20_1

K12

INT21_0

External interrupt request 21 input
pin

111

G11

INT21_1

K11

INT22_0

External interrupt request 22 input
pin

112

G10

INT22_1

J13

INT23_0

External interrupt request 23 input
pin

113

INT23_1

INT24_0

External interrupt request 24 input
pin

L10

INT24_1

INT25_0

External interrupt request 25 input
pin

K10

INT25_1

101

J11

INT26_0

External interrupt request 26 input
pin

143

D10

INT26_1

102

J10

INT27_0

External interrupt request 27 input
pin

144

INT27_1

103

INT28_0

External interrupt request 28 input
pin

INT28_1

104

H10

INT29_0

External interrupt request 29 input
pin

INT29_1

105

INT30_0

External interrupt request 30 input
pin

139

C11

INT30_1

163

133

INT31_0

External interrupt request 31 input
pin

140

D11

INT31_1

164

134

NMIX

Non-Maskable Interrupt input

128

104

C13

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

function

Pin name

Function description

Pin No

LQFP-176

LQFP-144

BGA-192

GPIO

P00

General-purpose I/O port 0

134

110

B13

P01

135

111

A12

P02

136

112

C12

P03

137

113

B12

P04

138

114

B11

P05

P06

P07

P08

P09

P10

General-purpose I/O port 1

M13

P11

M12

P12

L13

P13

L12

P14

L11

P15

K13

P16

K12

P17

K14

P18

K11

P19

J13

P1A

100

J12

P1B

101

J11

P1C

102

J10

P1D

103

P1E

104

H10

P1F

105

P20

General-purpose I/O port 2

127

103

D13

P21

126

102

D12

P22

125

101

E13

P23

124

100

E12

P24

123

E11

P25

122

E10

P26

121

F13

P27

120

F12

P28

119

F11

P29

118

F10

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

function

Pin name

Function description

Pin No

LQFP-176

LQFP-144

BGA-192

GPIO

P30

General-purpose I/O port 3

P31

P32

P33

P34

P35

P36

P37

P38

P39

P3A

P3B

P3C

P3D

P3E

P3F

P40

General-purpose I/O port 4

P41

P42

P43

P44

P45

P46

P47

P48

P49

P4A

P4B

P4C

P4D

P4E

P50

General-purpose I/O port 5

P51

P52

P53

P54

P55

P56

P57

P58

P59

P5A

P5B

P5C

P5D

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

function

Pin name

Function description

Pin No

LQFP-176

LQFP-144

BGA-192

GPIO

P60

General-purpose I/O port 6

169

139

P61

168

138

P62

167

137

P70

General-purpose I/O port 7

P71

P72

P73

P74

P75

P76

P77

P78

P79

P7A

P7B

P7C

P10

P7D

N10

P7E

L10

P7F

K10

P80

General-purpose I/O port 8

174

142

P81

175

143

P82

129

105

E14

P83

130

106

D14

P90

General-purpose I/O port 9

139

C11

P91

140

D11

P92

141

B10

P93

142

C10

P94

143

D10

P95

144

PA0

General-purpose I/O port A

PA1

PA2

PA3

PA4

PA5

PB0

General-purpose I/O port B

106

H13

PB1

107

H12

PB2

108

H11

PB3

109

G13

PB4

110

G12

PB5

111

G11

PB6

112

G10

PB7

113

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

function

Pin name

Function description

Pin No

LQFP-176

LQFP-144

BGA-192

GPIO

PC0

General-purpose I/O port C

145

115

PC1

146

116

PC2

147

117

PC3

148

118

PC4

149

119

PC5

150

120

PC6

151

121

PC7

152

122

PC8

153

123

A10

PC9

154

124

PCA

155

125

PCB

158

128

PCC

159

129

PCD

160

130

PCE

161

131

PCF

162

132

PD0

General-purpose I/O port D

163

133

PD1

164

134

PD2

165

135

PD3

166

136

PE0

General-purpose I/O port E

N13

PE2

P12

PE3

P13

PF0

General-purpose I/O port F

M10

PF1

N11

PF2

M11

PF3

170

PF4

171

PF5

172

140

PF6

128

104

C13

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

function

Pin name

Function description

Pin No.

LQFP-176

LQFP-144

BGA-192

Multi

Function

Serial

SIN0_0

Multifunction serial interface ch.0
input pin

126

102

D12

SIN0_1

L11

SIN0_2

110

G12

SOT0_0

(SDA0_0)

Multifunction serial interface ch.0
output pin.
This pin operates as SOT0 when it is
used in a UART/CSIO (operation
modes 0 to 2) and as SDA0 when it
is used in an I

C (operation mode 4).

125

101

E13

SOT0_1

(SDA0_1)

K13

SOT0_2

(SDA0_2)

111

G11

SCK0_0

(SCL0_0)

Multifunction serial interface ch.0
clock I/O pin.
This pin operates as SCK0 when it is
used in a UART/CSIO (operation
modes 0 to 2) and as SCL0 when it is
used in an I

C (operation mode 4).

124

100

E12

SCK0_1

(SCL0_1)

K12

SCK0_2

(SCL0_2)

112

G10

Multi

Function

Serial

SIN1_0

Multifunction serial interface ch.1
input pin

SIN1_1

M12

SIN1_2

M10

SOT1_0

(SDA1_0)

Multifunction serial interface ch.1
output pin.
This pin operates as SOT1 when it is
used in a UART/CSIO (operation
modes 0 to 2) and as SDA1 when it
is used in an I

C (operation mode 4).

SOT1_1

(SDA1_1)

L13

SOT1_2

(SDA1_2)

N11

SCK1_0

(SCL1_0)

Multifunction serial interface ch.1
clock I/O pin.
This pin operates as SCK1 when it is
used in a UART/CSIO (operation
modes 0 to 2) and as SCL1 when it is
used in an I

C (operation mode 4).

SCK1_1

(SCL1_1)

L12

SCK1_2

(SCL1_2)

M11

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

function

Pin name

Function description

Pin No.

LQFP-176

LQFP-144

BGA-192

Multi

Function

Serial

SIN2_0

Multifunction serial interface ch.2
input pin

SIN2_1

123

E11

SIN2_2

K14

SOT2_0

(SDA2_0)

Multifunction serial interface ch.2
output pin.
This pin operates as SOT2 when it is
used in a UART/CSIO (operation
modes 0 to 2) and as SDA2 when it
is used in an I

C (operation mode 4).

SOT2_1

(SDA2_1)

122

E10

SOT2_2

(SDA2_2)

K11

SCK2_0

(SCL2_0)

Multifunction serial interface ch.2
clock I/O pin.
This pin operates as SCK2 when it is
used in a UART/CSIO (operation
modes 0 to 2) and as SCL2 when it is
used in an I

C (operation mode 4).

SCK2_1

(SCL2_1)

121

F13

SCK2_2

(SCL2_2)

J13

Multi

Function

Serial

SIN3_0

Multifunction serial interface ch.3
input pin

SIN3_1

SIN3_2

SOT3_0

(SDA3_0)

Multifunction serial interface ch.3
output pin.
This pin operates as SOT3 when it is
used in a UART/CSIO (operation
modes 0 to 2) and as SDA3 when it
is used in an I

C (operation mode 4).

SOT3_1

(SDA3_1)

SOT3_2

(SDA3_2)

SCK3_0

(SCL3_0)

Multifunction serial interface ch.3
clock I/O pin.
This pin operates as SCK3 when it is
used in a UART/CSIO (operation
modes 0 to 2) and as SCL3 when it is
used in an I

C (operation mode 4).

SCK3_1

(SCL3_1)

SCK3_2

(SCL3_2)

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

function

Pin name

Function description

Pin No.

LQFP-176

LQFP-144

BGA-192

Multi

Function

Serial

SIN4_0

Multifunction serial interface ch.4
input pin

165

135

SIN4_1

100

J12

SIN4_2

SOT4_0

(SDA4_0)

Multifunction serial interface ch.4
output pin.
This pin operates as SOT4 when it is
used in a UART/CSIO (operation
modes 0 to 2) and as SDA4 when it
is used in an I

C (operation mode 4).

164

134

SOT4_1

(SDA4_1)

101

J11

SOT4_2

(SDA4_2)

SCK4_0

(SCL4_0)

Multifunction serial interface ch.4
clock I/O pin.
This pin operates as SCK4 when it is
used in a UART/CSIO (operation
modes 0 to 2) and as SCL4 when it is
used in an I

C (operation mode 4).

163

133

SCK4_1

(SCL4_1)

102

J10

SCK4_2

(SCL4_2)

RTS4_0

Multifunction serial interface ch.4
RTS output pin

161

131

RTS4_1

104

H10

RTS4_2

CTS4_0

Multifunction serial interface ch.4
CTS input pin

162

132

CTS4_1

103

CTS4_2

Multi

Function

Serial

SIN5_0

Multifunction serial interface ch.5
input pin

169

139

SIN5_1

141

B10

SIN5_2

SOT5_0

(SDA5_0)

Multifunction serial interface ch.5
output pin.
This pin operates as SOT5 when it is
used in a UART/CSIO (operation
modes 0 to 2) and as SDA5 when it
is used in an I

C (operation mode 4).

168

138

SOT5_1

(SDA5_1)

142

C10

SOT5_2

(SDA5_2)

SCK5_0

(SCL5_0)

Multifunction serial interface ch.5
clock I/O pin.
This pin operates as SCK5 when it is
used in a UART/CSIO (operation
modes 0 to 2) and as SCL5 when it is
used in an I

C (operation mode 4).

167

137

SCK5_1

(SCL5_1)

143

D10

SCK5_2

(SCL5_2)

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

function

Pin name

Function description

Pin No.

LQFP-176

LQFP-144

BGA-192

Multi

Function

Serial

SIN6_0

Multifunction serial interface ch.6
input pin

SIN6_1

SIN6_2

170

SOT6_0

(SDA6_0)

Multifunction serial interface ch.6
output pin.
This pin operates as SOT6 when it is
used in a UART/CSIO (operation
modes 0 to 2) and as SDA6 when it
is used in an I

C (operation mode 4).

SOT6_1

(SDA6_1)

SOT6_2

(SDA6_2)

171

SCK6_0

(SCL6_0)

Multifunction serial interface ch.6
clock I/O pin.
This pin operates as SCK6 when it is
used in a UART/CSIO (operation
modes 0 to 2) and as SCL6 when it is
used in an I

C (operation mode 4).

SCK6_1

(SCL6_1)

SCK6_2

(SCL6_2)

172

Multi

Function

Serial

SIN7_0

Multifunction serial interface ch.7
input pin

SIN7_1

SIN7_2

106

H13

SOT7_0

(SDA7_0)

Multifunction serial interface ch.7
output pin.
This pin operates as SOT7 when it is
used in a UART/CSIO (operation
modes 0 to 2) and as SDA7 when it
is used in an I

C (operation mode 4).

SOT7_1

(SDA7_1)

SOT7_2

(SDA7_2)

107

H12

SCK7_0

(SCL7_0)

Multifunction serial interface ch.7
clock I/O pin.
This pin operates as SCK7 when it is
used in a UART/CSIO (operation
modes 0 to 2) and as SCL7 when it is
used in an I

C (operation mode 4).

SCK7_1

(SCL7_1)

SCK7_2

(SCL7_2)

108

H11

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

function

Pin name

Function description

Pin No.

LQFP-176

LQFP-144

BGA-192

Multi

Function

Serial

SIN8_0

Multifunction serial interface ch.8
input pin

SOT8_0

(SDA8_0)

Multifunction serial interface ch.6
output pin.
This pin operates as SOT8 when it is
used in a UART/CSIO (operation
modes 0 to 2) and as SDA8 when it
is used in an I

C (operation mode 4).

SCK8_0

(SCL8_0)

Multifunction serial interface ch.7
clock I/O pin.
This pin operates as SCK8 when it is
used in a UART/CSIO (operation
modes 0 to 2) and as SCL8 when it is
used in an I

C (operation mode 4).

Multi

Function

Serial

SIN9_0

Multifunction serial interface ch.9
input pin

SOT9_0

(SDA9_0)

Multifunction serial interface ch.9
output pin.
This pin operates as SOT9 when it is
used in a UART/CSIO (operation
modes 0 to 2) and as SDA9 when it
is used in an I

C (operation mode 4).

SCK9_0

(SCL9_0)

Multifunction serial interface ch.9
clock I/O pin.
This pin operates as SCK9 when it is
used in a UART/CSIO (operation
modes 0 to 2) and as SCL9 when it is
used in an I

C (operation mode 4).

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

function

Pin name

Function description

Pin No.

LQFP-176

LQFP-144

BGA-192

Multi

Function

Serial

SIN10_0

Multifunction serial interface ch.10
input pin

SOT10_0

(SDA10_0)

Multifunction serial interface ch.10
output pin.
This pin operates as SOT10 when it
is used in a UART/CSIO (operation
modes 0 to 2) and as SDA10 when it
is used in an I

C (operation mode 4).

SCK10_0

(SCL10_0)

Multifunction serial interface ch.10
clock I/O pin.
This pin operates as SCK10 when it
is used in a UART/CSIO (operation
modes 0 to 2) and as SCL10 when it
is used in an I

C (operation mode 4).

Multi

Function

Serial

SIN11_0

Multifunction serial interface ch.11
input pin

SOT11_0

(SDA11_0)

Multifunction serial interface ch.11
output pin.
This pin operates as SOT11 when it
is used in a UART/CSIO (operation
modes 0 to 2) and as SDA11 when it
is used in an I

C (operation mode 4).

SCK11_0

(SCL11_0)

Multifunction serial interface ch.11
clock I/O pin.
This pin operates as SCK11 when it
is used in a UART/CSIO (operation
modes 0 to 2) and as SCL11 when it
is used in an I

C (operation mode 4).

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

function

Pin name

Function description

Pin No.

LQFP-176

LQFP-144

BGA-192

Multi

Function

Serial

SIN12_0

Multifunction serial interface ch.12
input pin

118

F10

SOT12_0

(SDA12_0)

Multifunction serial interface ch.12
output pin.
This pin operates as SOT12 when it
is used in a UART/CSIO (operation
modes 0 to 2) and as SDA12 when it
is used in an I

C (operation mode 4).

119

F11

SCK12_0

(SCL12_0)

Multifunction serial interface ch.12
clock I/O pin.
This pin operates as SCK12 when it
is used in a UART/CSIO (operation
modes 0 to 2) and as SCL12 when it
is used in an I

C (operation mode 4).

120

F12

Multi

Function

Serial

SIN13_0

Multifunction serial interface ch.13
input pin

145

115

SOT13_0

(SDA13_0)

Multifunction serial interface ch.13
output pin.
This pin operates as SOT13 when it
is used in a UART/CSIO (operation
modes 0 to 2) and as SDA13 when it
is used in an I

C (operation mode 4).

146

116

SCK13_0

(SCL13_0)

Multifunction serial interface ch.13
clock I/O pin.
This pin operates as SCK13 when it
is used in a UART/CSIO (operation
modes 0 to 2) and as SCL13 when it
is used in an I

C (operation mode 4).

147

117

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

function

Pin name

Function description

Pin No.

LQFP-176

LQFP-144

BGA-192

Multi

Function

Serial

SIN14_0

Multifunction serial interface ch.14
input pin

149

119

SOT14_0

(SDA14_0)

Multifunction serial interface ch.14
output pin.
This pin operates as SOT14 when it
is used in a UART/CSIO (operation
modes 0 to 2) and as SDA14 when it
is used in an I

C (operation mode 4).

150

120

SCK14_0

(SCL14_0)

Multifunction serial interface ch.14
clock I/O pin.
This pin operates as SCK14 when it
is used in a UART/CSIO (operation
modes 0 to 2) and as SCL14 when it
is used in an I

C (operation mode 4).

151

121

Multi

Function

Serial

SIN15_0

Multifunction serial interface ch.15
input pin

153

123

A10

SOT15_0

(SDA15_0)

Multifunction serial interface ch.15
output pin.
This pin operates as SOT15 when it
is used in a UART/CSIO (operation
modes 0 to 2) and as SDA15 when it
is used in an I

C (operation mode 4).

154

124

SCK15_0

(SCL15_0)

Multifunction serial interface ch.15
clock I/O pin.
This pin operates as SCK15 when it
is used in a UART/CSIO (operation
modes 0 to 2) and as SCL15 when it
is used in an I

C (operation mode 4).

155

125

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

function

Pin name

Function description

Pin No

LQFP-176

LQFP-144

BGA-192

Multi

Function

Timer

DTTI0X_0

Input signal controlling wave form
generator outputs RTO00 to RTO05
of multi-function timer 0.

DTTI0X_1

104

H10

FRCK0_0

16-bit free-run timer ch.0 external
clock input pin

FRCK0_1

105

FRCK0_2

M12

IC00_0

16-bit input capture ch.0 input pin of
multi-function timer 0.
ICxx describes channel number.

IC00_1

100

J12

IC00_2

L13

IC01_0

IC01_1

101

J11

IC01_2

L12

IC02_0

IC02_1

102

J10

IC02_2

L11

IC03_0

IC03_1

103

IC03_2

K13

RTO00_0

(PPG00_0)

Wave form generator output of
multi-function timer 0.
This pin operates as PPG00 when it
is used in PPG0 output modes.

RTO00_1

(PPG00_1)

124

100

E12

RTO01_0

(PPG00_0)

Wave form generator output of
multi-function timer 0.
This pin operates as PPG00 when it
is used in PPG0 output modes.

RTO01_1

(PPG00_1)

123

E11

RTO02_0

(PPG02_0)

Wave form generator output of
multi-function timer 0.
This pin operates as PPG02 when it
is used in PPG0 output modes.

RTO02_1

(PPG02_1)

122

E10

RTO03_0

(PPG02_0)

Wave form generator output of
multi-function timer 0.
This pin operates as PPG02 when it
is used in PPG0 output modes.

RTO03_1

(PPG02_1)

121

F13

RTO04_0

(PPG04_0)

Wave form generator output of
multi-function timer 0.
This pin operates as PPG04 when it
is used in PPG0 output modes.

RTO04_1

(PPG04_1)

120

F12

RTO05_0

(PPG04_0)

Wave form generator output of
multi-function timer 0.
This pin operates as PPG04 when it
is used in PPG0 output modes.

RTO05_1

(PPG04_1)

119

F11

IGTRG0_0

PPG IGBT mode external trigger
input pin

IGTRG0_1

172

140

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

function

Pin name

Function description

Pin No

LQFP-176

LQFP-144 BGA-192

Quadrature

Position/

Revolution

Counter

AIN0_0

QPRC ch.0 AIN input pin

AIN0_1

AIN0_2

BIN0_0

QPRC ch.0 BIN input pin

BIN0_1

BIN0_2

ZIN0_0

QPRC ch.0 ZIN input pin

ZIN0_1

ZIN0_2

Quadrature

Position/

Revolution

Counter

AIN1_0

QPRC ch.1 AIN input pin

AIN1_1

127

103

D13

AIN1_2

BIN1_0

QPRC ch.1 BIN input pin

BIN1_1

126

102

D12

BIN1_2

ZIN1_0

QPRC ch.1 ZIN input pin

ZIN1_1

125

101

E13

ZIN1_2

USB

UDM0

USB ch.0 function/host D – pin

174

142

UDP0

USB ch.0 function/host D + pin

175

143

UHCONX

USB ch.0
USB external pull-up control pin

168

138

Real-time

clock

RTCCO_0

0.5 seconds pulse output pin of Real-
time clock

152

122

RTCCO_1

L12

RTCCO_2

SUBOUT_0

Sub clock output pin

152

122

SUBOUT_1

L12

SUBOUT_2

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

function

Pin name

Function description

Pin No

LQFP-176

LQFP-144

BGA-192

RESET

INITX

External Reset Input. A reset is valid
when INITX="L".

Mode

MD0

Mode 0 Pin.
During normal operation, MD0="L"
must be input. During serial
programming to Flash memory,
MD0="H" must be input.

N12

MD1

Mode 1 Pin.
During serial programming to Flash
memory, MD1="L" must be input.

N13

POWER

VCC

Power supply Pin

M14

131

107

C14

133

109

A13

156

126

USBVCC

3.3V Power supply port for USB I/O

173

141

Low-Power

Consumption

Mode

WKUP0

Deep standby mode return signal
input pin 0

128

104

C13

WKUP1

Deep standby mode return signal
input pin 1

M12

WKUP2

Deep standby mode return signal
input pin 2

WKUP3

Deep standby mode return signal
input pin 3

172

140

WKUP4

Deep standby mode return signal
input pin 4

WKUP5

Deep standby mode return signal
input pin 5

169

139

HDMI-

CEC/

Remote
Control

Reception

CEC0_0

HDMI-CEC/Remote Control
Reception ch.0 input/output pin

M10

CEC0_1

149

119

CEC1_0

HDMI-CEC/Remote Control
Reception ch.1 input/output pin

172

140

CEC1_1

DAC

DA0_0

D/A converter ch.0 analog output pin

145

115

DA1_0

D/A converter ch.1 analog output pin

146

116

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

function

Pin name

Function description

Pin No

LQFP-176

LQFP-144

BGA-192

GND

VSS

GND Pin

A11

132

108

157

127

176

144

P11

N14

L14

B14

CLOCK

Main clock (oscillation) input pin

P12

X0A

Sub clock (oscillation) input pin

Main clock (oscillation) I/O pin

P13

X1A

Sub clock (oscillation) I/O pin

CROUT_0

Internal CR-osc clock output port

127

103

D13

CROUT_1

152

122

Analog

POWER

AVCC

A/D converter, D/A converter analog
power pin

114

J14

AVRH

A/D converter analog reference
voltage input pin

117

F14

Analog

GND

AVSS

A/D converter, D/A converter GND
pin

115

H14

AVRL

A/D converter analog reference
voltage input pin

116

G14

C pin

Power supply stabilization capacity
pin

*: 5V tolerant I/O

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series



I/O CIRCUIT TYPE

Type

Circuit

Remarks

P-ch

N-ch

P-ch

N-ch

It is possible to select the main
oscillation / GPIO function

When the main oscillation is
selected.



Oscillation feedback resistor

: Approximately 1MΩ



With Standby mode control

When the GPIO is selected.



CMOS level output.



CMOS level hysteresis input



With pull-up resistor control



With standby mode control



Pull-up resistor

: Approximately 50kΩ



= -4mA, I

= 4mA



CMOS level hysteresis input



Pull-up resistor

: Approximately 50kΩ

Pull-up resistor

Digital input

Digital output

Pull-up resistor control

Digital input

Standby mode control

Clock input

Standby mode control

Digital input

Standby mode control

Digital output

Pull-up resistor control

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

Type

Circuit

Remarks

N-ch



Open drain output



CMOS level hysteresis input

P-ch

N-ch

P-ch

N-ch

X0A

X1A

It is possible to select the sub
oscillation / GPIO function

When the sub oscillation is
selected.



Oscillation feedback resistor

: Approximately 5MΩ



With Standby mode control

When the GPIO is selected.



CMOS level output.



CMOS level hysteresis input



With pull-up resistor control



With standby mode control



Pull-up resistor

: Approximately 50kΩ



= -4mA, I

= 4mA

Digital input

Digital output

Pull-up resistor control

Digital input

Standby mode control

Clock input

Standby mode control

Digital input

Standby mode control

Digital output

Pull-up resistor control

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

Type

Circuit

Remarks

P-ch

N-ch



CMOS level output



CMOS level hysteresis input



With pull-up resistor control



With standby mode control



Pull-up resistor

: Approximately 50kΩ



= -4mA, I

= 4mA



When this pin is used as an

C pin, the digital output

P-ch transistor is always off

P-ch

N-ch



CMOS level output



CMOS level hysteresis input



With pull-up resistor control



With standby mode control



Pull-up resistor

: Approximately 50kΩ



= -12mA, I

= 12mA

Digital output

Pull-up resistor control

Digital input

Standby mode control

Digital output

Pull-up resistor control

Digital input

Standby mode control

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

Type

Circuit

Remarks

P-ch

N-ch



CMOS level output



CMOS level hysteresis input



With input control



Analog input



With pull-up resistor control



With standby mode control



Pull-up resistor

: Approximately 50kΩ



= -4mA, I

= 4mA



When this pin is used as an

C pin, the digital output

P-ch transistor is always off

P-ch

N-ch

Analog output

Digital output

Digital input

Standby mode Control

Pull-up resistor control



CMOS level output



CMOS level hysteresis input



With input control



Analog output



With pull-up resistor control



With standby mode control



Pull-up resistor

: Approximately 50kΩ



= -4mA, I

= 4mA

Digital output

Pull-up resistor control

Digital input

Standby mode control

Analog input

Input control

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

Type

Circuit

Remarks

P-ch

N-ch



CMOS level output



CMOS level hysteresis input



5V tolerant



With pull-up resistor control



With standby mode control



Pull-up resistor

: Approximately 50kΩ



= -4mA, I

= 4mA



Available to control PZR

registers.



When this pin is used as an

C pin, the digital output

P-ch transistor is always off

CMOS level hysteresis input

UDP0/P81

UDM0/P80

Differential

It is possible to select the USB
I/O / GPIO function.

When the USB I/O is selected.



Full-speed, Low-speed control

When the GPIO is selected.



CMOS level output



CMOS level hysteresis input



With standby mode control

GPIO Digital output

GPIO Digital input/output direction

GPIO Digital input
GPIO Digital input circuit control

UDP output

USB Full-speed/Low-speed control

UDP input

Differential input

USB/GPIO select

UDM input

UDM output

USB Digital input/output direction

GPIO Digital output

GPIO Digital input/output direction

GPIO Digital input

GPIO Digital input circuit control

Digital output

Pull-up resistor control

Digital input

Standby mode control

Mode input

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.0

MB9B320T Series



HANDLING PRECAUTIONS

Any semiconductor devices have inherently a certain rate of failure. The possibility of failure is greatly
affected by the conditions in which they are used (circuit conditions, environmental conditions, etc.). This
page describes precautions that must be observed to minimize the chance of failure and to obtain higher
reliability from your FUJITSU SEMICONDUCTOR semiconductor devices.

1. Precautions for Product Design

This section describes precautions when designing electronic equipment using semiconductor devices.



Absolute Maximum Ratings

Semiconductor devices can be permanently damaged by application of stress (voltage, current, temperature,
etc.) in excess of certain established limits, called absolute maximum ratings. Do not exceed these ratings.



Recommended Operating Conditions

Recommended operating conditions are normal operating ranges for the semiconductor device. All the
device's electrical characteristics are warranted when operated within these ranges.

Always use semiconductor devices within the recommended operating conditions. Operation outside these
ranges may adversely affect reliability and could result in device failure.

No warranty is made with respect to uses, operating conditions, or combinations not represented on the data
sheet. Users considering application outside the listed conditions are advised to contact their sales
representative beforehand.



Processing and Protection of Pins

These precautions must be followed when handling the pins which connect semiconductor devices to power
supply and input/output functions.

(1) Preventing Over-Voltage and Over-Current Conditions

Exposure to voltage or current levels in excess of maximum ratings at any pin is likely to cause
deterioration within the device, and in extreme cases leads to permanent damage of the device. Try to
prevent such overvoltage or over-current conditions at the design stage.

(2) Protection of Output Pins

Shorting of output pins to supply pins or other output pins, or connection to large capacitance can
cause large current flows. Such conditions if present for extended periods of time can damage the
device.
Therefore, avoid this type of connection.

(3) Handling of Unused Input Pins

Unconnected input pins with very high impedance levels can adversely affect stability of operation.
Such pins should be connected through an appropriate resistance to a power supply pin or ground pin.



Latch-up

Semiconductor devices are constructed by the formation of P-type and N-type areas on a substrate. When
subjected to abnormally high voltages, internal parasitic PNPN junctions (called thyristor structures) may
be formed, causing large current levels in excess of several hundred mA to flow continuously at the power
supply pin. This condition is called latch-up.

CAUTION: The occurrence of latch-up not only causes loss of reliability in the semiconductor device, but
can cause injury or damage from high heat, smoke or flame. To prevent this from happening, do the
following:

(1) Be sure that voltages applied to pins do not exceed the absolute maximum ratings. This should

include attention to abnormal noise, surge levels, etc.

(2) Be sure that abnormal current flows do not occur during the power-on sequence.

Code: DS00-00004-2Ea

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.0

MB9B320T Series



Observance of Safety Regulations and Standards

Most countries in the world have established standards and regulations regarding safety, protection from
electromagnetic interference, etc. Customers are requested to observe applicable regulations and standards
in the design of products.



Fail-Safe Design

Any semiconductor devices have inherently a certain rate of failure. You must protect against injury,
damage or loss from such failures by incorporating safety design measures into your facility and equipment
such as redundancy, fire protection, and prevention of over-current levels and other abnormal operating
conditions.



Precautions Related to Usage of Devices

FUJITSU SEMICONDUCTOR semiconductor devices are intended for use in standard applications
(computers, office automation and other office equipment, industrial, communications, and measurement
equipment, personal or household devices, etc.).

CAUTION: Customers considering the use of our products in special applications where failure or
abnormal operation may directly affect human lives or cause physical injury or property damage, or where
extremely high levels of reliability are demanded (such as aerospace systems, atomic energy controls, sea
floor repeaters, vehicle operating controls, medical devices for life support, etc.) are requested to consult
with sales representatives before such use. The company will not be responsible for damages arising from
such use without prior approval.

2. Precautions for Package Mounting

Package mounting may be either lead insertion type or surface mount type. In either case, for heat resistance
during soldering, you should only mount under FUJITSU SEMICONDUCTOR's recommended conditions.
For detailed information about mount conditions, contact your sales representative.



Lead Insertion Type

Mounting of lead insertion type packages onto printed circuit boards may be done by two methods: direct
soldering on the board, or mounting by using a socket.

Direct mounting onto boards normally involves processes for inserting leads into through-holes on the
board and using the flow soldering (wave soldering) method of applying liquid solder. In this case, the
soldering process usually causes leads to be subjected to thermal stress in excess of the absolute ratings for
storage temperature. Mounting processes should conform to FUJITSU SEMICONDUCTOR recommended
mounting conditions.

If socket mounting is used, differences in surface treatment of the socket contacts and IC lead surfaces can
lead to contact deterioration after long periods. For this reason it is recommended that the surface treatment
of socket contacts and IC leads be verified before mounting.



Surface Mount Type

Surface mount packaging has longer and thinner leads than lead-insertion packaging, and therefore leads are
more easily deformed or bent. The use of packages with higher pin counts and narrower pin pitch results in
increased susceptibility to open connections caused by deformed pins, or shorting due to solder bridges.

You must use appropriate mounting techniques. FUJITSU SEMICONDUCTOR recommends the solder
reflow method, and has established a ranking of mounting conditions for each product. Users are advised to
mount packages in accordance with FUJITSU SEMICONDUCTOR ranking of recommended conditions.

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.0

MB9B320T Series



Using an external clock

When using an external clock as an input of the main clock, set X0/X1 to the external clock input, and input
the clock to X0. X1(PE3) can be used as a general-purpose I/O port.
Similarly, when using an external clock as an input of the sub clock, set X0A/X1A to the external clock
input, and input the clock to X0A. X1A (P47) can be used as a general-purpose I/O port.



Handling when using Multi-function serial pin as I

C pin

If it is using the multi-function serial pin as I

C pins, P-ch transistor of digital output is always disabled.

However, I

C pins need to keep the electrical characteristic like other pins and not to connect to the external

C bus system with power OFF.



C Pin

This series contains the regulator. Be sure to connect a smoothing capacitor (C

) for the regulator between

the C pin and the GND pin. Please use a ceramic capacitor or a capacitor of equivalent frequency
characteristics as a smoothing capacitor.
However, some laminated ceramic capacitors have the characteristics of capacitance variation due to
thermal fluctuation (F characteristics and Y5V characteristics). Please select the capacitor that meets the
specifications in the operating conditions to use by evaluating the temperature characteristics of a capacitor.
A smoothing capacitor of about 4.7μF would be recommended for this series.



Mode pins (MD0)

Connect the MD pin (MD0) directly to VCC or VSS pins. Design the printed circuit board such that the
pull-up/down resistance stays low, as well as the distance between the mode pins and VCC pins or VSS pins
is as short as possible and the connection impedance is low, when the pins are pulled-up/down such as for
switching the pin level and rewriting the Flash memory data. It is because of preventing the device
erroneously switching to test mode due to noise.

•

Example of Using an External Clock

Device

X0(X0A)

X1(PE3),
X1A (P47)

Can be used as
general-purpose
I/O ports.

Device

VSS

GND

Set as
External clock
input

DS706-00062-0v01-E

MB9B320T Series

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.0



BLOCK DIAGRAM

Cortex-M3

Core

@60 MHz(Max)

Flash I/F

Clock Reset

Generator

Dual-Timer

WatchDog Timer

(Hardware)

DMAC

8ch.

Watch Counter

Unit 0

CSV

External Interrupt

Controller

32pin + NMI

Power-On

Reset

SRAM0

80/96 Kbytes

-A

SRAM1

80/96 Kbytes

-A

Sys

CLK

-A

NVIC

WatchDog Timer

(Software)

Security

Unit 1

TRSTX,TCK,

TDI,TMS

TRACEDx,

TRACECLK

AVCC,

AVSS,

AVRH

ANxx

TIOAx

TIOBx

TDO

X0A

X1A

SCKx

SINx

SOTx

INTx

NMIX

P0x,
P1x,

.
.
.

PFx

INITX

MODE-Ctrl

IRQ-Monitor

MD0,
MD1

Regulator

CRC Accelerator

-A

ADTGx

RTS4

CTS4

MADx

MADATAx

On-Chip Flash

1 Mbytes+64 Kbytes/

1.5 Mbytes+64 Kbytes

Multi-function Serial I/F

16ch.

HW flow control(ch.4)

External Bus I/F

GPIO

PIN-Function-Ctrl

LVD

ti-

(

TPIU

ROM

Table

ETM

SWJ-DP

Main

Osc

PLL

Sub
Osc

4 MHz

100 kHz

CEC0_x,
CEC1_x

LVD Ctrl

Base Timer

16-bit 16ch./

32-bit 8ch.

HDMI-CEC/

Remote Reciver Control

Real-Time Clock

RTCCO,
SUBOUT

Deep Standby Ctrl

WKUPx

16-bit Free-run Timer

3ch.

16-bit Output Compare

6ch.

16-bit Input Capture

4ch.

A/D Activation Compare

3ch.

16-bit PPG

3ch.

DTTI0X

FRCK0

QPRC

2ch.

BINx

ZINx

IC0x

RTO0x

AINx

12-bit A/D Converter

Multi-function Timer

× 1

MCSXx,MDQMx,
MOEX,MWEX,
MALE,MRDY,
MNALE,MNCLE,
MNWEX,MNREX,
MCLKOUT

IGTRGx

Waveform Generator

3ch.

CROUT

Source Clock

UDP0/UDM0

UHCONX

USB2.0

(Host/

Func)

PHY

USB Clock Ctrl

PLL



MEMORY SIZE

See "



Memory size" in "



PRODUCT LINEUP" to confirm the memory size.

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.0

MB9B320T Series



MEMORY MAP



Memory Map (1)

Peripherals Area

0x41FF_FFFF

0xFFFF_FFFF

0xE010_0000

0xE000_0000

0x4006_1000
0x4006_0000

DMAC

0x4005_0000

Reserved

0x4004_0000

USB ch.0

0x4003_F000

EXT-bus I/F

0x4003_C000

Reserved

0x4003_B000

RTC

0x4003_A000

Watch Counter

0x6000_0000

0x4003_9000

CRC

0x4003_8000

MFS

0x4003_7000

Reserved

0x4400_0000

0x4003_6000

USB Clock Ctrl

0x4003_5000

LVD/DS mode

0x4200_0000

0x4003_4000

HDMI-CEC

0x4003_3000

GPIO

0x4000_0000

0x4003_2000

Reserved

0x4003_1000

Int-Req.Read

0x2400_0000

0x4003_0000

EXTI

0x4002_F000

Reserved

0x2200_0000

0x4002_E000

CR Trim

0x4002_9000

Reserved

0x2001_8000

0x4002_8000

D/AC

0x2000_0000

SRAM1

0x4002_7000

A/DC

0x1FFE_8000

SRAM0

0x4002_6000

QPRC

0x4002_5000

Base Timer

0x0051_8000

0x4002_4000

PPG

0x0050_8000

Flash(Work area)

0x0040_4000

Reserved

0x0040_0000

Security/CR Trim

0x4002_1000
0x4002_0000

MFT unit0

0x4001_6000
0x4001_5000

Dual Timer

0x0000_0000

0x4001_3000
0x4001_2000

SW WDT

0x4001_1000

HW WDT

0x4001_0000

Clock/Reset

0x4000_1000

0x4000_0000

Flash I/F

32Mbytes

Bit band alias

See "



Memory map(2)" for

the memory size details.

Reserved

Peripherals

Reserved

32Mbytes

Bit band alias

Reserved

Flash(Main area)

Reserved

Cortex-M3 Private

Peripherals

External Device

Area

Reserved

DS706-00062-0v01-E

MB9B320T Series

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.0



Memory Map (2)

MB9BF329S/T

MB9BF328S/T

0x2008_0000

0x2001_8000

0x2001_4000

0x2000_4000

0x2000_0000

SRAM1

16Kbytes*

0x2000_0000

SRAM1

16Kbytes*

0x1FFF_C000

SRAM0

16Kbytes*

0x1FFF_C000

SRAM0

16Kbytes*

0x1FFE_C000

0x1FFE_8000

0x0051_8000

0x0050_8000

0x0040_4000

0x0040_2000

CR trimming

0x0040_2000

CR trimming

0x0040_0000

Security

0x0040_0000

Security

0x0018_0000

Reserved

0x0010_0000

0x0000_0000

Flash

(Main area, ROM0)

1Mbytes

Reserved

Flash

(Main area, ROM1)

512Kbytes

Reserved

Flash

(Main area, ROM0)

1Mbytes

Reserved

Flash

(Work area, ROM1)

64Kbytes

Flash

(Work area, ROM1)

64Kbytes

SRAM0

64Kbytes

SRAM1

64Kbytes

SRAM1

80Kbytes

SRAM0

80Kbytes

*:The content of SRAM can be retained at the deep standby modes by the setting of Deep Standby RAM

Retention Register (DSRAMR).
See "MB9B520T/420T/320T/120T Series Flash programming Manual" for sector structure of Flash.

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.0

MB9B320T Series



Peripheral Address Map

Start address

End address

Bus

Peripherals

0x4000_0000

0x4000_0FFF

AHB

Flash Memory I/F register

0x4000_1000

0x4000_FFFF

Reserved

0x4001_0000

0x4001_0FFF

APB0

Clock/Reset Control

0x4001_1000

0x4001_1FFF

Hardware Watchdog timer

0x4001_2000

0x4001_2FFF

Software Watchdog timer

0x4001_3000

0x4001_4FFF

Reserved

0x4001_5000

0x4001_5FFF

Dual-Timer

0x4001_6000

0x4001_FFFF

Reserved

0x4002_0000

0x4002_0FFF

APB1

Multi-function timer unit0

0x4002_1000

0x4002_3FFF

Reserved

0x4002_4000

0x4002_4FFF

PPG

0x4002_5000

0x4002_5FFF

Base Timer

0x4002_6000

0x4002_6FFF

Quadrature Position/Revolution Counter (QPRC)

0x4002_7000

0x4002_7FFF

A/D Converter

0x4002_8000

0x4002_8FFF

D/A Converter

0x4002_9000

0x4002_DFFF

Reserved

0x4002_E000

0x4002_EFFF

Built-in CR trimming

0x4002_F000

0x4002_FFFF

Reserved

0x4003_0000

0x4003_0FFF

APB2

External Interrupt

0x4003_1000

0x4003_1FFF

Interrupt Source Check Resister

0x4003_2000

0x4003_2FFF

Reserved

0x4003_3000

0x4003_3FFF

GPIO

0x4003_4000

0x4003_4FFF

HDMI-CEC/Remote control Reception

0x4003_5000

0x4003_57FF

Low-Voltage Detector

0x4003_5800

0x4003_5FFF

Deep standby mode Controller

0x4003_6000

0x4003_6FFF

USB clock generator

0x4003_7000

0x4003_7FFF

Reserved

0x4003_8000

0x4003_8FFF

Multi-function serial Interface

0x4003_9000

0x4003_9FFF

CRC

0x4003_A000

0x4003_AFFF

Watch Counter

0x4003_B000

0x4003_BFFF

Real-time clock

0x4003_C000

0x4003_EFFF

Reserved

0x4003_F000

0x4003_FFFF

External bus interface

0x4004_0000

0x4004_FFFF

AHB

USB ch.0

0x4005_0000

0x4005_FFFF

Reserved

0x4006_0000

0x4006_0FFF

DMAC register

0x4006_1000

0x400F_FFFF

Reserved

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series



List of Pin Status

s t

Function

group

Power-on

reset or

low-voltage

detection

state

INITX

input state

Device

internal

reset state

Run mode

or SLEEP

mode state

Timer mode,

RTC mode, or

STOP mode state

Deep standby

RTC mode or Deep

standby STOP mode

state

Return from

Deep

standby

mode state

Power
supply

unstable

Power supply stable

Power
supply

stable

Power supply stable

Power

supply

stable

INITX = 0 INITX = 1 INITX = 1

INITX = 1

SPL = 0

SPL = 1

SPL = 0

SPL = 1

GPIO

selected

Setting

disabled

Setting

disabled

Setting

disabled

Maintain

state

Maintain

state

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

Internal

input fixed

at "0"

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

Main crystal

oscillator input

pin/

External main

clock input

selected

Input

enabled

Input

enabled

Input

enabled

Input

enabled

Input

enabled

Input

enabled

Input

enabled

Input

enabled

Input

enabled

GPIO

selected

Setting

disabled

Setting

disabled

Setting

disabled

Maintain

state

Maintain

state

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

Internal

input fixed

at "0"

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

External main

clock input

selected

Setting

disabled

Setting

disabled

Setting

disabled

Maintain

state

Maintain

state

Hi-Z /

Internal

input fixed

at "0"

Maintain

state

Hi-Z /

Internal

input fixed

at "0"

Maintain

state

Main crystal

oscillator output

Hi-Z /

Internal

input

fixed at

"0"/

or Input

enable

Hi-Z /

Internal

input fixed

at "0"

Hi-Z /

Internal

input fixed

at "0"

Maintain

state/When

oscillation

stops*

Hi-Z /

Internal

input fixed

at "0"

Maintain

state/When

oscillation

stops*

Hi-Z /

Internal

input fixed

at "0"

Maintain

state/When

oscillation

stops*

Hi-Z /

Internal

input fixed

at "0"

Maintain

state/When

oscillation

stops*

Hi-Z /

Internal

input fixed

at "0"

Maintain

state/When

oscillation

stops*

Hi-Z /

Internal

input fixed

at "0"

Maintain

state/When

oscillation

stops*

Hi-Z /

Internal

input fixed

at "0"

INITX

input pin

Pull-up /

Input

enabled

Pull-up /

Input

enabled

Pull-up /

Input

enabled

Pull-up /

Input

enabled

Pull-up /

Input

enabled

Pull-up /

Input

enabled

Pull-up /

Input

enabled

Pull-up /

Input

enabled

Pull-up /

Input

enabled

Mode

input pin

Input

enabled

Input

enabled

Input

enabled

Input

enabled

Input

enabled

Input

enabled

Input

enabled

Input

enabled

Input

enabled

Mode

input pin

Input

enabled

Input

enabled

Input

enabled

Input

enabled

Input

enabled

Input

enabled

Input

enabled

Input

enabled

Input

enabled

GPIO

selected

Setting

disabled

Setting

disabled

Setting

disabled

Maintain

state

Maintain

state

Hi-Z /

Input

enabled

GPIO

selected

Hi-Z /

Input

enabled

GPIO

selected

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

s t

Function

group

Power-on

reset or

low-voltage

detection

state

INITX

input state

Device

internal

reset state

Run mode

or SLEEP

mode state

Timer mode,

RTC mode, or

STOP mode state

Deep standby

RTC mode or Deep

standby STOP mode

state

Return from

Deep

standby

mode state

Power
supply

unstable

Power supply stable

Power
supply

stable

Power supply stable

Power

supply

stable

INITX = 0 INITX = 1 INITX = 1

INITX = 1

SPL = 0

SPL = 1

SPL = 0

SPL = 1

GPIO

selected

Setting

disabled

Setting

disabled

Setting

disabled

Maintain

state

Maintain

state

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

Internal

input fixed

at "0"

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

Sub crystal

oscillator input

pin /

External sub

clock input

selected

Input

enabled

Input

enabled

Input

enabled

Input

enabled

Input

enabled

Input

enabled

Input

enabled

Input

enabled

Input

enabled

GPIO

selected

Setting

disabled

Setting

disabled

Setting

disabled

Maintain

state

Maintain

state

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

Internal

input fixed

at "0"

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

External sub

clock input

selected

Setting

disabled

Setting

disabled

Setting

disabled

Maintain

state

Maintain

state

Hi-Z /

Internal

input fixed

at "0"

Maintain

state

Hi-Z/

Internal

input fixed

at "0"

Maintain

state

Sub crystal

oscillator output

Hi-Z /

Internal

input

fixed at

"0"/

or Input

enable

Hi-Z /

Internal

input fixed

at "0"

Hi-Z /

Internal

input fixed

at "0"

Maintain

state

Maintain

state/When

oscillation

stops*

Hi-Z /

Internal

input fixed

at "0"

Maintain

state/When

oscillation

stops*

Hi-Z /

Internal

input fixed

at "0"

Maintain

state/When

oscillation

stops*

Hi-Z/

Internal

input fixed

at "0"

Maintain

state/When

oscillation

stops*

Hi-Z/

Internal

input fixed

at "0"

Maintain

state/When

oscillation

stops*

Hi-Z/

Internal

input fixed

at "0"

NMIX selected

Setting

disabled

Setting

disabled

Setting

disabled

Maintain

state

Maintain

state

Maintain

state

WKUP

input

enabled

Hi-Z /

WKUP

input

enabled

GPIO

selected

GPIO

selected

Hi-Z

Hi-Z /

Input

enabled

Hi-Z /

Input

enabled

Hi-Z /

Internal

input fixed

at "0"

JTAG

selected

Hi-Z

Pull-up /

Input

enabled

Pull-up /

Input

enabled

Maintain

state

Maintain

state

Maintain

state

Maintain

state

Maintain

state

Maintain

state

GPIO

selected

Setting

disabled

Setting

disabled

Setting

disabled

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

Internal

input fixed

at "0"

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

s t

Function

group

Power-on

reset or

low-voltage

detection

state

INITX

input state

Device

internal

reset state

Run mode

or SLEEP

mode state

Timer mode,

RTC mode, or

STOP mode state

Deep standby

RTC mode or Deep

standby STOP mode

state

Return from

Deep

standby

mode state

Power
supply

unstable

Power supply stable

Power
supply

stable

Power supply stable

Power

supply

stable

INITX = 0 INITX = 1 INITX = 1

INITX = 1

SPL = 0

SPL = 1

SPL = 0

SPL = 1

Resource selected

Hi-Z

Hi-Z /

Input

enabled

Hi-Z /

Input

enabled

Maintain

state

Maintain

state

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

Internal

input fixed

at "0"

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

GPIO

selected

External interrupt

enabled selected

Setting

disabled

Setting

disabled

Setting

disabled

Maintain

state

Maintain

state

Maintain

state

GPIO

selected

Internal

input fixed

at "0"

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

Resource other

than above

selected

Hi-Z

Hi-Z /

Input

enabled

Hi-Z /

Input

enabled

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

Analog input

selected

Hi-Z

Hi-Z /

Internal

input fixed

at "0" /

Analog

input

enabled

Hi-Z /

Internal

input fixed

at "0" /

Analog

input

enabled

Hi-Z /

Internal

input fixed

at "0" /

Analog

input

enabled

Hi-Z /

Internal

input fixed

at "0" /

Analog

input

enabled

Hi-Z /

Internal

input fixed

at "0" /

Analog

input

enabled

Hi-Z /

Internal

input fixed

at "0" /

Analog

input

enabled

Hi-Z /

Internal

input fixed

at "0" /

Analog

input

enabled

Hi-Z /

Internal

input fixed

at "0" /

Analog

input

enabled

Resource other

than above

selected

Setting

disabled

Setting

disabled

Setting

disabled

Maintain

state

Maintain

state

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

Internal

input fixed

at "0"

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

GPIO

selected

Analog input

selected

Hi-Z

Hi-Z /

Internal

input fixed

at "0" /

Analog

input

enabled

Hi-Z /

Internal

input fixed

at "0" /

Analog

input

enabled

Hi-Z /

Internal

input fixed

at "0" /

Analog

input

enabled

Hi-Z /

Internal

input fixed

at "0" /

Analog

input

enabled

Hi-Z /

Internal

input fixed

at "0" /

Analog

input

enabled

Hi-Z /

Internal

input fixed

at "0" /

Analog

input

enabled

Hi-Z /

Internal

input fixed

at "0" /

Analog

input

enabled

Hi-Z /

Internal

input fixed

at "0" /

Analog

input

enabled

External interrupt

enabled selected

Setting

disabled

Setting

disabled

Setting

disabled

Maintain

state

Maintain

state

Maintain

state

GPIO

selected

Internal

input fixed

at "0"

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

Resource other

than above

selected

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

s t

Function

group

Power-on

reset or

low-voltage

detection

state

INITX

input state

Device

internal

reset state

Run mode

or SLEEP

mode state

Timer mode,

RTC mode, or

STOP mode state

Deep standby

RTC mode or Deep

standby STOP mode

state

Return from

Deep

standby

mode state

Power
supply

unstable

Power supply stable

Power
supply

stable

Power supply stable

Power

supply

stable

INITX = 0 INITX = 1 INITX = 1

INITX = 1

SPL = 0

SPL = 1

SPL = 0

SPL = 1

Analog input

selected

Hi-Z

Hi-Z /

Internal

input fixed

at "0" /

Analog

input

enabled

Hi-Z /

Internal

input fixed

at "0" /

Analog

input

enabled

Hi-Z /

Internal

input fixed

at "0" /

Analog

input

enabled

Hi-Z /

Internal

input fixed

at "0" /

Analog

input

enabled

Hi-Z /

Internal

input fixed

at "0" /

Analog

input

enabled

Hi-Z /

Internal

input fixed

at "0" /

Analog

input

enabled

Hi-Z /

Internal

input fixed

at "0" /

Analog

input

enabled

Hi-Z /

Internal

input fixed

at "0" /

Analog

input

enabled

WKUP

enabled

Setting

disabled

Setting

disabled

Setting

disabled

Maintain

state

Maintain

state

Maintain

state

WKUP

input

enabled

Hi-Z /

WKUP

input

enabled

GPIO

selected

External interrupt

enabled selected

GPIO

selected

Internal

input fixed

at "0"

Hi-Z /

Internal

input fixed

at "0"

Resource other

than above

selected

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

Analog output

selected

Setting

disabled

Setting

disabled

Setting

disabled

Maintain

state

GPIO

selected

Internal

input fixed

at "0"

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

Resource other

than above

selected

Hi-Z

Hi-Z /

Input

enabled

Hi-Z /

Input

enabled

Maintain

state

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

Trace selected

Setting

disabled

Setting

disabled

Setting

disabled

Maintain

state

Maintain

state

Trace

output

GPIO

selected

Internal

input fixed

at "0"

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

Resource other

than above

selected

Hi-Z

Hi-Z /

Input

enabled

Hi-Z /

Input

enabled

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

s t

Function

group

Power-on

reset or

low-voltage

detection

state

INITX

input state

Device

internal

reset state

Run mode

or SLEEP

mode state

Timer mode,

RTC mode, or

STOP mode state

Deep standby

RTC mode or Deep

standby STOP mode

state

Return from

Deep

standby

mode state

Power
supply

unstable

Power supply stable

Power
supply

stable

Power supply stable

Power

supply

stable

INITX = 0 INITX = 1 INITX = 1

INITX = 1

SPL = 0

SPL = 1

SPL = 0

SPL = 1

Trace selected

Setting

disabled

Setting

disabled

Setting

disabled

Maintain

state

Maintain

state

Trace

output

GPIO

selected

Internal

input fixed

at "0"

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

External interrupt

enabled selected

Maintain

state

Resource other

than above

selected

Hi-Z

Hi-Z /

Input

enabled

Hi-Z /

Input

enabled

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

CEC

enabled

Setting

disabled

Setting

disabled

Setting

disabled

Maintain

state

Maintain

state

Maintain

state

Maintain

state

Maintain

state

Maintain

state

Resource other

than above

selected

Hi-Z

Hi-Z /

Input

enabled

Hi-Z /

Input

enabled

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

Internal

input fixed

at "0"

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

GPIO

selected

CEC

enabled

Setting

disabled

Setting

disabled

Setting

disabled

Maintain

state

Maintain

state

Maintain

state

Maintain

state

Maintain

state

Maintain

state

External interrupt

enabled selected

GPIO

selected

Internal

input fixed

at "0"

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

Resource other

than above

selected

Hi-Z

Hi-Z /

Input

enabled

Hi-Z /

Input

enabled

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

CEC

enabled

Setting

disabled

Setting

disabled

Setting

disabled

Maintain

state

Maintain

state

Maintain

state

Maintain

state

Maintain

state

Maintain

state

WKUP

enabled

WKUP

input

enabled

Hi-Z /

WKUP

input

enabled

GPIO

selected

External interrupt

enabled selected

GPIO

selected

Internal

input fixed

at "0"

Hi-Z /

Internal

input fixed

at "0"

Resource other

than above

selected

Hi-Z

Hi-Z /

Input

enabled

Hi-Z /

Input

enabled

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

s t

Function

group

Power-on

reset or

low-voltage

detection

state

INITX

input state

Device

internal

reset state

Run mode

or SLEEP

mode state

Timer mode,

RTC mode, or

STOP mode state

Deep standby

RTC mode or Deep

standby STOP mode

state

Return from

Deep

standby

mode state

Power
supply

unstable

Power supply stable

Power
supply

stable

Power supply stable

Power

supply

stable

INITX = 0 INITX = 1 INITX = 1

INITX = 1

SPL = 0

SPL = 1

SPL = 0

SPL = 1

WKUP

enabled

Setting

disabled

Setting

disabled

Setting

disabled

Maintain

state

Maintain

state

Maintain

state

WKUP

input

enabled

Hi-Z /

WKUP

input

enabled

GPIO

selected

External interrupt

enabled selected

GPIO

selected

Internal

input fixed

at "0"

Hi-Z /

Internal

input fixed

at "0"

Resource other

than above

selected

Hi-Z

Hi-Z /

Input

enabled

Hi-Z /

Input

enabled

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

GPIO

selected

Hi-Z

Hi-Z /

Input

enabled

Hi-Z /

Input

enabled

Maintain

state

Maintain

state

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

Internal

input fixed

at "0"

Hi-Z /

Internal

input fixed

at "0"

GPIO

selected

USB I/O pin

Setting

disabled

Setting

disabled

Setting

disabled

Hi-Z at

trans-

mission/

Input

enabled/

Internal

input fixed

at "0" at

reception

Hi-Z at

trans-

mission/

Input

enabled/

Internal

input fixed

at "0" at

reception

Hi-Z /

Input

enabled

Hi-Z /

Input

enabled

Hi-Z /

Input

enabled

*1 : Oscillation is stopped at Sub timer mode, sub CR timer mode, RTC mode, STOP mode, Deep standby RTC

mode, and Deep standby STOP mode.

*2 :  Oscillation is stopped at STOP mode and Deep standby STOP mode.
*3 :  Maintain previous state at timer mode. GPIO selected Internal input fixed at "0" at RTC mode, STOP mode.
*4 :  Maintain previous state at timer mode. Hi-Z/Internal input fixed at "0" at RTC mode, STOP mode.

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series



ELECTRICAL CHARACTERISTICS

1. Absolute Maximum Ratings

Parameter

Symbol

Rating

Unit

Remarks

Min

Max

Power supply voltage*

- 0.5

+ 6.5

Power supply voltage (for USB)*

USBV

- 0.5

+ 6.5

Analog power supply voltage*

- 0.5

+ 6.5

Analog reference voltage*

AVRH

- 0.5

+ 6.5

Input voltage*

- 0.5

+ 0.5

(≤ 6.5V)

Except for USB pin

- 0.5

USBV

+ 0.5

(≤ 6.5V)

USB pin

- 0.5

+ 6.5

5V tolerant

Analog pin input voltage*

- 0.5

+ 0.5

(≤ 6.5V)

Output voltage*

- 0.5

+ 0.5

(≤ 6.5V)

"L" level maximum output current*

mA 4mA type

mA 12mA type

The pin doubled as
USB I/O

"L" level average output current*

OLAV

mA 4mA type

mA 12mA type

16.5

The pin doubled as
USB I/O

"L" level total maximum output current

∑I

100

"L" level total average output current*

∑I

OLAV

"H" level maximum output current*

- 10

mA 4mA type

- 20

mA 12mA type

- 39

The pin doubled as
USB I/O

"H" level average output current*

OHAV

- 4

mA 4mA type

- 12

mA 12mA type

- 18

The pin doubled as
USB I/O

"H" level total maximum output
current

∑I

- 100

"H" level total average output current*

∑I

OHAV

- 50

Power consumption

390

Storage temperature

STG

- 55

+ 150

°C

*1 : These parameters are based on the condition that V

= AV

= 0V.

*2 : V

must not drop below V

- 0.5V.

*3 : USBV

must not drop below V

- 0.5V.

*4 : Ensure that the voltage does not exceed V

+ 0.5 V, for example, when the power is turned on.

*5 : The maximum output current is defined as the value of the peak current flowing through any one of the

corresponding pins.

*6 : The average output current is defined as the average current value flowing through any one of the

corresponding pins for a 100 ms period.

*7 : The total average output current is defined as the average current value flowing through all of

corresponding pins for a 100ms.

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

2. Recommended Operating Conditions

= AV

= 0.0V)

Parameter

Symbol Conditions

Value

Unit

Remarks

Min

Max

Power supply voltage

2.7

5.5

Power supply voltage (3V power
supply) for USB

USBV

3.0

3.6

(≤ V

)

2.7

5.5

(≤ V

)

Analog power supply voltage

2.7

5.5

= V

Analog reference voltage

AVRH

2.7

AVRL

Smoothing capacitor

μF

For Regulator*

Operating temperature

- 40

+ 105

°C

*1: When P81/UDP0 and P80/UDM0 pins are used as USB (UDP0, UDM0).
*2: When P81/UDP0 and P80/UDM0 pins are used as GPIO (P81, P80).
*3 : See "



C Pin" in "



HANDLING DEVICES" for the connection of the smoothing capacitor.

<WARNING>

The recommended operating conditions are required in order to ensure the normal operation of the
semiconductor device. All of the device's electrical characteristics are warranted when the device is
operated under these conditions.
Any use of semiconductor devices will be under their recommended operating condition.
Operation under any conditions other than these conditions may adversely affect reliability of device and
could result in device failure.
No warranty is made with respect to any use, operating conditions or combinations not represented on this
data sheet. If you are considering application under any conditions other than listed herein, please contact
sales representatives beforehand.

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

3. DC Characteristics

(1) Current Rating (targeted value)

Parameter Symbol

name

Conditions

Value

Unit

Remarks

Typ*

Max*

Power
supply
current

VCC

Normal operation

(PLL)

TBD

CPU : 60MHz,
Peripheral : 30MHz
*3

TBD

CPU:60MHz,
Peripheral clock stops
*3

Normal operation

(built-in high-speed

CR)

3.1

TBD

CPU/ Peripheral : 4MHz*

Normal operation

(sub oscillation)

415

TBD

µA

CPU/ Peripheral : 32kHz
*3

Normal operation

(built-in low-speed

CR)

440

TBD

µA

CPU/ Peripheral : 100kHz
*3

CCS

SLEEP operation

(PLL)

TBD

Peripheral : 30MHz
*3

SLEEP operation

(built-in high-speed

CR)

2.1

TBD

Peripheral : 4MHz*

SLEEP operation

(sub oscillation)

395

TBD

µA

Peripheral : 32kHz
*3

SLEEP operation

(built-in low-speed

CR)

420

TBD

µA

Peripheral : 100kHz
*3

*1: Ta=+25

℃

= 3.3V

*2: Ta=+105

℃

=5.5V

*3: When all ports are fixed.
*4: When setting it to 4MHz by trimming.

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

Parameter Symbol

name

Conditions

Value

Unit

Remarks

Typ*

Max*

Power
supply
current

CCH

VCC

STOP mode

TBD

μA

Ta = + 25°C

TBD

μA

Ta = + 105°C

CCT

TIMER mode

(sub oscillation)

TBD

μA

Ta = + 25°C

TBD

μA

Ta = + 105°C

CCR

RTC mode

(sub oscillation)

TBD

μA

Ta = + 25°C

TBD

μA

Ta = + 105°C

CCHD

Deep Standby

STOP mode

1.9

TBD

μA

Ta = + 25°C,
When RAM is off
*3

4.8

TBD

μA

Ta = + 25°C,
When RAM is on(16KB)*

5.5

TBD

μA

Ta = + 25°C,
When RAM is on(32KB) *

TBD

μA

Ta = + 105°C,
When RAM is off
*3

TBD

μA

Ta = + 105°C,
When RAM is on(16KB) *

TBD

μA

Ta = + 105°C,
When RAM is on(32KB) *

CCRD

Deep Standby

RTC mode

(sub oscillation)

2.5

TBD

μA

Ta = + 25°C,
When RAM is off
*3

5.4

TBD

μA

Ta = + 25°C,
When RAM is on(16KB) *

6.1

TBD

μA

Ta = + 25°C,
When RAM is on(32KB) *

TBD

μA

Ta = + 105°C,
When RAM is off
*3

TBD

μA

Ta = + 105°C,
When RAM is on(16KB) *

TBD

μA

Ta = + 105°C,
When RAM is on(32KB) *

*1: V

=3.3V

*2: V

=5.5V

*3: When all ports are fixed and LVD off.
*4: For more information about RAM retention area, see "



Memory Map (2)" in "



MEMORY MAP".

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series



Low-Voltage Detection Current

= 2.7V to 5.5V, V

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol

name

Conditions

Value

Unit

Remarks

Min

Typ

Max

Low-Voltage
detection
circuit (LVD)
power supply
current

CCLVD

VCC

At operation

0.13

0.3

μA

For occurrence of
reset

0.13

0.3

μA

For occurrence of
interrupt



Flash Memory Current

= 2.7V to 5.5V, V

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol

name

Conditions

Value

Unit

Remarks

Min

Typ

Max

Flash memory
write/erase
current

CCFLASH

VCC

At ROM0

Write/Erase

9.9

TBD

At ROM1

Write/Erase

9.5

TBD

*1: When programming or erase in flash memory, Flash Memory Write/Erase current (ICCFLASH) is added to

the Power supply current (I

In addition, When programming or erase in flash memory ROM0 and ROM1 at the same time, Flash
Memory Write/Erase current (ICCFLASH) of both ROM0 and ROM1 are added to the Power supply current
(I



A/D Converter Current

= AV

= 2.7V to 5.5V, V

= AV

= AVRL = 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol

name

Conditions

Value

Unit

Remarks

Min

Typ

Max

Power supply
current

CCAD

AVCC

At 1unit

operation

0.69

TBD

At stop

0.25

TBD

μA

Reference
power supply
current
(AVRH)

CCAVRH

AVRH

At 1unit

operation

AVRH=5.5V

1.1

TBD

At stop

0.2

TBD

μA



D/A Converter Current

= AV

= 2.7V to 5.5V, V

= AV

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol

name

Conditions

Value

Unit

Remarks

Min

Typ

Max

Power supply
current*

IDDA*

AVCC

At operation

=3.3V

250

315

TBD

μA

At operation

=5.0V

380

475

TBD

μA

IDSA

At stop

TBD

μA

*1: No-load
*2: Generates the max current by the CODE about 0x200

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

(2) Pin Characteristics

= USBV

= AV

= 2.7V to 5.5V, V

= AV

= AVRL = 0V, Ta = - 40°C to + 105°C)

Parameter Symbol Pin name

Conditions

Value

Unit Remarks

Min

Typ

Max

"H" level
input
voltage
(hysteresis
input)

IHS

CMOS

hysteresis

input pin,

MD0, MD1

× 0.8

+ 0.3

5V tolerant

input pin

× 0.8

+ 5.5

"L" level
input
voltage
(hysteresis
input)

ILS

CMOS

hysteresis

input pin,

MD0, MD1

- 0.3

× 0.2

5V tolerant

input pin

- 0.3

× 0.2

"H" level
output
voltage

4mA type

≥ 4.5 V,

= - 4mA

- 0.5

< 4.5 V,

= - 2mA

12mA type

≥ 4.5 V,

= - 12mA

- 0.5

< 4.5 V,

= - 8mA

The pin

doubled as

USB I/O

USBV

≥ 4.5 V,

= - 18.0 mA

USBV

0.4

USBV

< 4.5 V,

= - 12.0 mA

"L" level
output
voltage

4mA type

≥ 4.5 V,

= 4mA

0.4

< 4.5 V,

= 2mA

12mA type

≥ 4.5 V,

= 12mA

0.4

< 4.5 V,

= 8mA

The pin

doubled as

USB I/O

USBV

≥ 4.5 V,

= 16.5mA

0.4

USBV

< 4.5 V,

= 10.5mA

Input leak
current

- 5

+ 5

μA

Pull-up
resistance
value

Pull-up pin

≥ 4.5 V

kΩ

< 4.5 V

180

Input
capacitance

Other than

VCC,

USBVCC,

VSS,

AVCC,

AVSS,

AVRH,

AVRL

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

4. AC Characteristics

(1) Main Clock Input Characteristics

= 2.7V to 5.5V, V

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol

name

Conditions

Value

Unit

Remarks

Min

Max

Input frequency

X0,

≥ 4.5V

MHz

When crystal oscillator
is connected

< 4.5V

MHz

When using external

lock

Input clock cycle

CYLH

20.83

250

When using external

lock

Input clock pulse
width

CYLH

When using external

lock

Input clock rising
time and falling
time

CF,

When using external

lock

Internal operating
clock*

frequency

MHz

Master clock

MHz

Base clock
(HCLK/FCLK)

CP0

MHz

APB0 bus clock*

CP1

MHz

APB1 bus clock*

CP2

MHz

APB2 bus clock*

Internal operating
clock*

cycle time

CYCC

16.7

Base clock
(HCLK/FCLK)

CYCP0

31.25

APB0 bus clock*

CYCP1

31.25

APB1 bus clock*

CYCP2

31.25

APB2 bus clock*

*1: For more information about each internal operating clock, see "Chapter:Clock" in "FM3 Family

PERIPHERAL MANUAL".

*2: For about each APB bus which each peripheral is connected to, see "



BLOCK DIAGRAM" in this data

sheet.

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

(2) Sub Clock Input Characteristics

= 2.7V to 5.5V, V

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol

name

Conditions

Value

Unit

Remarks

Min

Typ

Max

Input frequency

1/ t

CYLL

X0A,

X1A

32.768

kHz

When crystal
oscillator is
connected*

100

kHz

When using
external clock

Input clock cycle

CYLL

31.25

μs

When using
external clock

Input clock pulse
width

CYLL

When using
external clock

*: For more information about crystal oscillator, see "



Sub crystal oscillator" in "



HANDLING DEVICES".

X0A

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

(3) Built-in CR Oscillation Characteristics

・

Built-in High-speed CR

= 2.7V to 5.5V, V

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol

Conditions

Value

Unit

Remarks

Min

Typ Max

Clock frequency

CRH

Ta = + 25°C,

3.6V < V

≤ 5.5V

3.92

4.08

MHz

When trimming*

Ta = 0°C to + 85°C,

3.6V < V

≤ 5.5V

3.9

4.1

Ta = -40°C to + 105°C,

3.6V < V

≤ 5.5V

3.88

4.12

Ta = + 25°C,

2.7V ≤ V

≤ 3.6V

3.94

4.06

Ta = - 20°C to + 85°C,

2.7V ≤ V

≤ 3.6V

3.92

4.08

Ta = - 20°C to + 105°C,

2.7V ≤ V

≤ 3.6V

3.9

4.1

Ta = -40°C to + 105°C,

2.7V ≤ V

≤ 3.6V

3.88

4.12

Ta = - 40°C to + 105°C

2.8

5.2

When not trimming

Frequency
stability time

CRWT

μs *2

*1: In the case of using the values in CR trimming area of Flash memory at shipment for frequency/temperature

trimming.

*2: Frequency stable time is time to stable of the frequency of the High-speed CR.

clock after the trim value is set. After setting the trim value, the period when the frequency stability
time passes can use the High-speed CR clock as a source clock.

・

Built-in Low-speed CR

= 2.7V to 5.5V, V

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol

Conditions

Value

Unit

Remarks

Min

Typ

Max

Clock frequency

CRL

100

150

kHz

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

(4-1) Operating Conditions of Main and USB PLL (In the case of using main clock for input of PLL)

= 2.7V to 5.5V, V

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol

Value

Unit

Remarks

Min Typ Max

PLL oscillation stabilization wait time*

(LOCK UP time)

LOCK

100

μs

PLL input clock frequency

PLLI

MHz

PLL multiplication rate

multiplier

PLL macro oscillation clock frequency

PLLO

150

MHz

Main PLL clock frequency*

CLKPLL

MHz

USB clock frequency*

CLKSPLL

MHz

After the M frequency
division

*1: Time from when the PLL starts operating until the oscillation stabilizes.
*2: For more information about Main PLL clock (CLKPLL), see "Chapter: Clock" in "FM3 Family

PERIPHERAL MANUAL".

*3: For more information about USB clock, see "Chapter: USB Clock Generation" in "FM3 Family

PERIPHERAL MANUAL Communication Macro Part".

(4-2) Operating Conditions of Main PLL (In the case of using built-in high-speed CR for input clock

of main PLL)

= 2.7V to 5.5V, V

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol

Value

Unit

Remarks

Min Typ Max

PLL oscillation stabilization wait time*

(LOCK UP time)

LOCK

100

μs

PLL input clock frequency

PLLI

3.8

4.2

MHz

PLL multiplication rate

multiplier

PLL macro oscillation clock frequency

PLLO

150

MHz

Main PLL clock frequency*

CLKPLL

MHz

*1: Time from when the PLL starts operating until the oscillation stabilizes.
*2: For more information about Main PLL clock (CLKPLL), see "Chapter: Clock" in "FM3 Family

PERIPHERAL MANUAL".

Note: Make sure to input to the main PLL source clock, the high-speed CR clock (CLKHC) that the frequency

has been trimmed.

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

(5) Reset Input Characteristics

= 2.7V to 5.5V, V

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol

name

Conditions

Value

Unit Remarks

Min

Max

Reset input time

INITX

500

(6) Power-on Reset Timing

= 2.7V to 5.5V, V

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol

name

Value

Unit

Remarks

Min

Max

Power supply rising time

VCC

Power supply shut down time

Toff

Time until releasing
Power-on reset

Tprt

TBD

0.2V

VDL_minimum

VCC_minimum

Tprt

Internal RST

VCC

CPU Operation

start

RST Active

Release

0.2V

Toff

Glossary

・

VCC_minimum : Minimum V

of recommended operating conditions

・

LVDL_minimum : Minimum detection voltage of Low-Voltage detection reset

See "6. Low-Voltage Detection Characteristics"

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

(7) External Bus Timing

External bus clock output characteristics

= 2.7V to 5.5V, V

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol

Pin name

Conditions

Value

Unit

Min

Max

Output frequency

CYCLE

MCLKOUT*

≥ 4.5V

MHz

< 4.5V

MHz

*: The external bus clock (MCLKOUT) is a divided clock of HCLK.

For more information about setting of clock divider, see "Chapter: External Bus Interface" in "FM3 Family
PERIPHERAL MANUAL".

0.8 × Vcc

CYCLE

External bus signal input/output characteristics

= 2.7V to 5.5V, V

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol Conditions

Value

Unit

Remarks

Signal input characteristics

0.8 × V

0.2 × V

Signal output characteristics

0.8 × V

0.2 × V

Input signal

Output signal

MCLK

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

Separate Bus Access Asynchronous SRAM Mode

(targeted value)

= 2.7V to 5.5V, V

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol

Pin name

Conditions

Value

Unit

Min

Max

MOEX
Min pulse width

OEW

MOEX

≥ 4.5V

MCLK×n-3

< 4.5V

MCSX ↓ → Address
output delay time

CSL – AV

MCSX[7:0],

MAD[24:0]

≥ 4.5V

-9

< 4.5V

-12

+12

MOEX ↑ →
Address hold time

OEH - AX

MOEX,

MAD[24:0]

≥ 4.5V

MCLK×m+9

< 4.5V

MCLK×m+12

MCSX ↓ →
MOEX ↓ delay time

CSL - OEL

MOEX,

MCSX[7:0]

≥ 4.5V

MCLK×m-9

MCLK×m+9

< 4.5V

MCLK×m-12 MCLK×m+12

MOEX ↑ →
MCSX ↑ time

OEH - CSH

≥ 4.5V

MCLK×m+9

< 4.5V

MCLK×m+12

MCSX ↓ →
MDQM ↓ delay time

CSL - RDQML

MCSX,

MDQM[1:0]

≥ 4.5V

MCLK×m-9

MCLK×m+9

< 4.5V

MCLK×m-12 MCLK×m+12

Data set up →
MOEX ↑ time

DS - OE

MOEX,

MADATA[15:0]

≥ 4.5V

< 4.5V

MOEX ↑ →
Data hold time

DH - OE

MOEX,

MADATA[15:0]

≥ 4.5V

< 4.5V

MWEX
Min pulse width

WEW

MWEX

≥ 4.5V

MCLK×n-3

< 4.5V

MWEX ↑ → Address
output delay time

WEH - AX

MWEX,

MAD[24:0]

≥ 4.5V

MCLK×m+9

< 4.5V

MCLK×m+12

MCSX ↓ →
MWEX ↓ delay time

CSL - WEL

MWEX,

MCSX[7:0]

≥ 4.5V

MCLK×n-9

MCLK×n+9

< 4.5V

MCLK×n-12 MCLK×n+12

MWEX ↑ →
MCSX ↑ delay time

WEH - CSH

≥ 4.5V

MCLK×m+9

< 4.5V

MCLK×m+12

MCSX ↓→
MDQM ↓ delay time

CSL-WDQML

MCSX,

MDQM[1:0]

≥ 4.5V

MCLK×n-9

MCLK×n+9

< 4.5V

MCLK×n-12 MCLK×n+12

MCSX ↓→
Data output time

CSL-DV

MCSX,

MADATA[15:0]

≥ 4.5V

MCLK-9

MCLK+9

< 4.5V

MCLK-12

MCLK+12

MWEX ↑ →
Data hold time

WEH - DX

MWEX,

MADATA[15:0]

≥ 4.5V

MCLK×m+12

< 4.5V

Note: When the external load capacitance C

= 30pF (m = 0 to 15, n = 1 to 16).

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

Separate Bus Access Synchronous SRAM Mode

(targeted value)

= 2.7V to 5.5V, V

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol

Pin name

Conditions

Value

Unit

Min

Max

Address delay time

MCLK,

MAD[24:0]

≥ 4.5V

< 4.5V

MCSX delay time

CSL

MCLK,

MCSX[7:0]

≥ 4.5V

< 4.5V

CSH

≥ 4.5V

< 4.5V

MOEX delay time

REL

MCLK,

MOEX

≥ 4.5V

< 4.5V

REH

≥ 4.5V

< 4.5V

Data set up →
MCLK ↑ time

MCLK,

MADATA[15:0]

≥ 4.5V

< 4.5V

MCLK ↑ →
Data hold time

MCLK,

MADATA[15:0]

≥ 4.5V

< 4.5V

MWEX delay time

WEL

MCLK,
MWEX

≥ 4.5V

< 4.5V

WEH

≥ 4.5V

< 4.5V

MDQM[1:0]
delay time

DQML

MCLK,

MDQM[1:0]

≥ 4.5V

< 4.5V

DQMH

≥ 4.5V

< 4.5V

MCLK ↑ →
Data output time

ODS

MCLK,

MADATA[15:0]

≥ 4.5V

MCLK+1

MCLK+18

< 4.5V

MCLK+24

MCLK ↑ →
Data hold time

MCLK,

MADATA[15:0]

≥ 4.5V

< 4.5V

Note: When the external load capacitance C

= 30pF.

Invalid

DQML

REH

Address

CSL

REL

Address

DQMH

WEH

WEL

CSH

CYCLE

DQML

DQMH

ODS

MCLK

MCSX[7:0]

MAD[24:0]

MDQM[1:0]

MWEX

MADATA[15:0]

MOEX

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

Multiplexed Bus Access Synchronous SRAM Mode

(targeted value)

= 2.7V to 5.5V, V

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol

Pin name

Conditions

Value

Unit Remarks

Min

Max

MALE delay time

CHAL

MCLK,

ALE

≥ 4.5V

< 4.5V

CHAH

≥ 4.5V

< 4.5V

MCLK ↑ →
Multiplexed
Address delay time

CHMADV

MCLK,

MADATA[15:0]

≥ 4.5V

< 4.5V

MCLK ↑ →
Multiplexed
Data output time

CHMADX

≥ 4.5V

< 4.5V

Note: When the external load capacitance C

= 30pF.

MCLK

MCSX[7:0]

MALE

MOEX

MWEX

MADATA[15:0]

MAD [24:0]

MDQM [1:0]

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series



NAND Flash Memory Mode (targeted value)

= 2.7V to 5.5V, V

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol

Pin name

Conditions

Value

Unit

Min

Max

MNREX
Min pulse width

NREW

MNREX

≥ 4.5V

MCLK×n-3

< 4.5V

Data setup →
MNREX↑time

DS – NRE

MNREX,

MADATA[15:0]

≥ 4.5V

< 4.5V

MNREX↑→
Data hold time

DH – NRE

MNREX,

MADATA[15:0]

≥ 4.5V

< 4.5V

MNALE↑→
MNWEX delay time

ALEH - NWEL

MNALE,

MNWEX

≥ 4.5V

MCLK×m-9

MCLK×m+9

< 4.5V

MCLK×m-12

MCLK×m+12

MNALE↓→
MNWEX delay time

ALEL - NWEL

MNALE,

MNWEX

≥ 4.5V

MCLK×m-9

MCLK×m+9

< 4.5V

MCLK×m-12

MCLK×m+12

MNCLE↑→
MNWEX delay time

CLEH - NWEL

MNCLE,

MNWEX

≥ 4.5V

MCLK×m-9

MCLK×m+9

< 4.5V

MCLK×m-12

MCLK×m+12

MNWEX↑→
MNCLE delay time

NWEH - CLEL

MNCLE,

MNWEX

≥ 4.5V

MCLK×m+9

< 4.5V

MCLK×m+12

MNWEX
Min pulse width

NWEW

MNWEX

≥ 4.5V

MCLK×n-3

< 4.5V

MNWEX↓→

Data output time

NWEL – DV

MNWEX,

MADATA[15:0]

≥ 4.5V

- 9

+ 9

< 4.5V

-12

+12

MNWEX↑→
Data hold time

NWEH – DX

MNWEX,

MADATA[15:0]

≥ 4.5V

MCLK×m+11

< 4.5V

MCLK×m+12

Note: When the external load capacitance C

= 30pF (m=0 to 15, n=1 to 16).

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

(8) Base Timer Input Timing

・

Timer input timing

= 2.7V to 5.5V, V

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol

Pin name

Conditions

Value

Unit Remarks

Min

Max

Input pulse width

TIWH

TIWL

TIOAn/TIOBn
(when using as

ECK, TIN)

CYCP

TIWH

IHS

ILS

TIWL

・

Trigger input timing

= 2.7V to 5.5V, V

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol Pin name Conditions

Value

Unit Remarks

Min

Max

Input pulse width

TRGH

TRGL

TIOAn/TIOBn
(when using as

TGIN)

CYCP

TRGH

IHS

ILS

TRGL

Note: t

CYCP

indicates the APB bus clock cycle time.

About the APB bus number which the Base Timer is connected to, see "



BLOCK DIAGRAM" in this

data sheet.

ECK

TIN

TGIN

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

(9) CSIO Timing (targeted value)

・

Synchronous serial (SPI = 0, SCINV = 0)

= 2.7V to 5.5V, V

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol

name

Conditions

< 4.5V

≥ 4.5V

Unit

Min

Max

Min

Max

Serial clock cycle time

SCYC

SCKx

Internal shift

clock

operation

CYCP

SCK ↓ → SOT delay time

SLOVI

SCKx,

SOTx

- 30

+ 30

- 20

+ 20

SIN → SCK ↑ setup time

IVSHI

SCKx,

SINx

SCK ↑ → SIN hold time

SHIXI

SCKx,

SINx

Serial clock "L" pulse width

SLSH

SCKx

External shift

clock

operation

CYCP

Serial clock "H" pulse width

SHSL

SCKx

CYCP

SCK ↓ → SOT delay time

SLOVE

SCKx,

SOTx

SIN → SCK ↑ setup time

IVSHE

SCKx,

SINx

SCK ↑ → SIN hold time

SHIXE

SCKx,

SINx

SCK falling time

SCKx

SCK rising time

SCKx

Notes:

・

The above characteristics apply to CLK synchronous mode.

・

CYCP

indicates the APB bus clock cycle time.

・

About the APB bus number which Multi-function Serial is connected to, see "



BLOCK

DIAGRAM" in this data sheet.

・

These characteristics only guarantee the same relocate port number.
For example, the combination of SCLKx_0 and SOTx_1 is not guaranteed.

・

When the external load capacitance CL = 30pF.

DS706-00062-0v01-E

100

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

・

Synchronous serial (SPI = 0, SCINV = 1)

= 2.7V to 5.5V, V

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol

name

Conditions

< 4.5V

≥ 4.5V

Unit

Min

Max

Min

Max

Serial clock cycle time

SCYC

SCKx

Internal shift

clock

operation

CYCP

SCK ↑ → SOT delay time

SHOVI

SCKx,

SOTx

- 30

+ 30

- 20

+ 20

SIN → SCK ↓ setup time

IVSLI

SCKx,

SINx

SCK ↓ → SIN hold time

SLIXI

SCKx,

SINx

Serial clock "L" pulse width

SLSH

SCKx

External shift

clock

operation

CYCP

Serial clock "H" pulse width

SHSL

SCKx

CYCP

SCK ↑ → SOT delay time

SHOVE

SCKx,

SOTx

SIN → SCK ↓ setup time

IVSLE

SCKx,

SINx

SCK ↓ → SIN hold time

SLIXE

SCKx,

SINx

SCK falling time

SCKx

SCK rising time

SCKx

Notes:

・

The above characteristics apply to CLK synchronous mode.

・

CYCP

indicates the APB bus clock cycle time.

・

About the APB bus number which Multi-function Serial is connected to, see "



BLOCK

DIAGRAM" in this data sheet.

・

These characteristics only guarantee the same relocate port number.
For example, the combination of SCLKx_0 and SOTx_1 is not guaranteed.

・

When the external load capacitance CL = 30pF.

DS706-00062-0v01-E

102

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

・

Synchronous serial (SPI = 1, SCINV = 0)

= 2.7V to 5.5V, V

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol

name

Conditions

< 4.5V

≥ 4.5V

Unit

Min

Max

Min

Max

Serial clock cycle time

SCYC

SCKx

Internal shift

clock

operation

CYCP

SCK ↑ → SOT delay time

SHOVI

SCKx,

SOTx

- 30

+ 30

- 20

+ 20

SIN → SCK ↓ setup time

IVSLI

SCKx,

SINx

SCK ↓→ SIN hold time

SLIXI

SCKx,

SINx

SOT → SCK ↓ delay time

SOVLI

SCKx,

SOTx

CYCP

Serial clock "L" pulse width

SLSH

SCKx

External shift

clock

operation

CYCP

Serial clock "H" pulse width

SHSL

SCKx

CYCP

SCK ↑ → SOT delay time

SHOVE

SCKx,

SOTx

SIN → SCK ↓ setup time

IVSLE

SCKx,

SINx

SCK ↓→ SIN hold time

SLIXE

SCKx,

SINx

SCK falling time

SCKx

SCK rising time

SCKx

Notes:

・

The above characteristics apply to CLK synchronous mode.

・

CYCP

indicates the APB bus clock cycle time.

・

About the APB bus number which Multi-function Serial is connected to, see "



BLOCK

DIAGRAM" in this data sheet.

・

These characteristics only guarantee the same relocate port number.
For example, the combination of SCLKx_0 and SOTx_1 is not guaranteed.

・

When the external load capacitance CL = 30pF.

DS706-00062-0v01-E

104

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

SOVLI

SCYC

SHOVI

IVSLI

SLIXI

MS bit = 0

SLSH

SHSL

SHOVE

IVSLE

SLIXE

MS bit = 1

*: Changes when writing to TDR register

SCK

SOT

SIN

SCK

SOT

SIN

105

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

・

Synchronous serial (SPI = 1, SCINV = 1)

= 2.7V to 5.5V, V

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol

name

Conditions

< 4.5V

≥ 4.5V

Unit

Min

Max

Min

Max

Serial clock cycle time

SCYC

SCKx

Internal shift

clock

operation

CYCP

SCK ↓ → SOT delay time

SLOVI

SCKx,

SOTx

- 30

+ 30

- 20

+ 20

SIN → SCK ↑ setup time

IVSHI

SCKx,

SINx

SCK ↑ → SIN hold time

SHIXI

SCKx,

SINx

SOT → SCK ↑ delay time

SOVHI

SCKx,

SOTx

CYCP

Serial clock "L" pulse width

SLSH

SCKx

External shift

clock

operation

CYCP

Serial clock "H" pulse width

SHSL

SCKx

CYCP

SCK ↓ → SOT delay time

SLOVE

SCKx,

SOTx

SIN → SCK ↑ setup time

IVSHE

SCKx,

SINx

SCK ↑ → SIN hold time

SHIXE

SCKx,

SINx

SCK falling time

SCKx

SCK rising time

SCKx

Notes:

・

The above characteristics apply to CLK synchronous mode.

・

CYCP

indicates the APB bus clock cycle time.

・

About the APB bus number which Multi-function Serial is connected to, see "



BLOCK

DIAGRAM" in this data sheet.

・

These characteristics only guarantee the same relocate port number.
For example, the combination of SCLKx_0 and SOTx_1 is not guaranteed.

・

When the external load capacitance C

= 30pF.

DS706-00062-0v01-E

106

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

SCYC

SLOVI

IVSHI

SHIXI

SOVHI

MS bit = 0

SHSL

SLSH

SLOVE

IVSHE

SHIXE

MS bit = 1

・

External clock (EXT = 1) : asynchronous only

= 2.7V to 5.5V, V

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol Conditions

Value

Unit Remarks

Min

Max

Serial clock "L" pulse width

SLSH

= 30pF

CYCP

+ 10

Serial clock "H" pulse width

SHSL

CYCP

+ 10

SCK falling time

SCK rising time

SHSL

SLSH

SCK

SOT

SIN

SCK

SOT

SIN

SCK

107

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

(10) External Input Timing

= 2.7V to 5.5V, V

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol Pin name Conditions

Value

Unit

Remarks

Min

Max

Input pulse width

INH,

INL

ADTG

CYCP

A/D converter
trigger input

FRCKx

Free-run timer input
clock

ICxx

Input capture

DTTIxX

CYCP

Waveform generator

INT00 to INT23,

NMIX

CYCP

+ 100*

External interrupt,
NMI

500*

WKUPx

500*

Deep standby wake
up

*1 : t

CYCP

indicates the APB bus clock cycle time except stop when in stop mode, in timer mode.

About the APB bus number which the A/D converter, Multi-function Timer, External interrupt are connected
to, see "



BLOCK DIAGRAM" in this data sheet.

*2 : When in stop mode, in timer mode.
*3 : When in Deep standby RTC mode, in Deep standby STOP mode.

DS706-00062-0v01-E

108

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

(11) Quadrature Position/Revolution Counter timing

= 2.7V to 5.5V, V

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol

Conditions

Value

Unit

Min

Max

AIN pin "H" width

AHL

CYCP

AIN pin "L" width

ALL

BIN pin "H" width

BHL

BIN pin "L" width

BLL

Time from AIN pin "H"
level to BIN rise

AUBU

PC_Mode2 or

PC_Mode3

Time from BIN pin "H"
level to AIN fall

BUAD

PC_Mode2 or

PC_Mode3

Time from AIN pin "L"
level to BIN fall

ADBD

PC_Mode2 or

PC_Mode3

Time from BIN pin "L"
level to AIN rise

BDAU

PC_Mode2 or

PC_Mode3

Time from BIN pin "H"
level to AIN rise

BUAU

PC_Mode2 or

PC_Mode3

Time from AIN pin "H"
level to BIN fall

AUBD

PC_Mode2 or

PC_Mode3

Time from BIN pin "L"
level to AIN fall

BDAD

PC_Mode2 or

PC_Mode3

Time from AIN pin "L"
level to BIN rise

ADBU

PC_Mode2 or

PC_Mode3

ZIN pin "H" width

ZHL

QCR:CGSC="0"

ZIN pin "L" width

ZLL

QCR:CGSC="0"

Time from determined ZIN
level to AIN/BIN rise and
fall

ZABE

QCR:CGSC="1"

Time from AIN/BIN rise
and fall time to determined
ZIN level

ABEZ

QCR:CGSC="1"

*: t

CYCP

indicates the APB bus clock cycle time except stop when in stop mode, in timer mode.

About the APB bus number which the Quadrature Position/Revolution Counter is connected to, see
"



BLOCK DIAGRAM" in this data sheet.

AIN

BIN

AUBU

BUAD

ADBD

BDAU

AHL

ALL

BHL

BLL

109

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

(12) I

C Timing

= 2.7V to 5.5V, V

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol Conditions

Standard-mode Fast-mode

Unit Remarks

Min

Max

Min Max

SCL clock frequency

SCL

= 30pF,

R = (Vp/I

100

400 kHz

(Repeated) START condition
hold time
SDA ↓ → SCL ↓

HDSTA

4.0

0.6

μs

SCLclock "L" width

LOW

4.7

1.3

μs

SCLclock "H" width

HIGH

4.0

0.6

μs

(Repeated) START condition
setup time
SCL ↑ → SDA ↓

SUSTA

4.7

0.6

μs

Data hold time
SCL ↓ → SDA ↓ ↑

HDDAT

3.45*

0.9*

μs

Data setup time
SDA ↓ ↑ → SCL ↑

SUDAT

250

100

STOP condition setup time
SCL ↑ → SDA ↑

SUSTO

4.0

0.6

μs

Bus free time between
"STOP condition" and
"START condition"

BUF

4.7

1.3

μs

Noise filter

8MHz ≤

CYCP

≤ 40MHz

2 t

CYCP

40MHz <

CYCP

≤ 60MHz

3 t

CYCP

60MHz <

CYCP

≤ 72MHz

4 t

CYCP

*1 :R and C

represent the pull-up resistor and load capacitance of the SCL and SDA lines, respectively.

Vp indicates the power supply voltage of the pull-up resistor and I

indicates V

guaranteed current.

*2 :The maximum t

HDDAT

must satisfy that it does not extend at least "L" period (t

LOW

) of device's SCL signal.

*3 :A high-speed mode I

C bus device can be used on a standard mode I

C bus system as long as the device

satisfies the requirement of "t

SUDAT

≥ 250 ns".

*4 :t

CYCP

is the APB bus clock cycle time.

About the APB bus number that I

C is connected to, see "



BLOCK DIAGRAM" in this data sheet.

To use Standard-mode, set the APB bus clock at 2 MHz or more.
To use Fast-mode, set the APB bus clock at 8 MHz or more.

*5 :The number of the steps of the noise filter can be changed to 2, 3 and 4 steps by register settings.

Change the number of the noise filter steps according to APB2 bus clock frequency.

SDA

SCL

111

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

(13) ETM Timing (targeted value)

= 2.7V to 5.5V, V

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol

Pin name

Conditions

Value

Unit

Remarks

Min Max

Data hold

ETMH

TRACECLK,

TRACED[3:0]

≥ 4.5V

< 4.5V

TRACECLK
frequency

1/ t

TRACE

TRACECLK

≥ 4.5V

MHz

< 4.5V

MHz

TRACECLK
clock cycle

TRACE

≥ 4.5V

< 4.5V

Note: When the external load capacitance C

= 30pF.

HCLK

TRACECLK

TRACED[3:0]

DS706-00062-0v01-E

112

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

5. 12-bit A/D Converter

・

Electrical characteristics for the A/D converter (Preliminary value)

= AV

= 2.7V to 5.5V, V

= AV

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol

name

Value

Unit

Remarks

Min

Typ

Max

Resolution

bit

Integral Nonlinearity

- 4.5

+ 4.5

LSB

AVRH = 2.7V
to 5.5V

Differential Nonlinearity

- 2.5

+ 2.5

LSB

Zero transition voltage

AN00 to

AN23

- 15

+ 15

Full-scale transition
voltage

FST

AN00 to

AN23

AVRH - 15

AVRH + 15 mV

Conversion time

2.0*

μs

≥

4.5V

Sampling time

μs

≥

4.5V

< 4.5V

Compare clock cycle*

Tcck

100

1000

State transition time to
operation permission

Tstt

1.0

μs

Analog input capacity

AIN

9.5

Analog input resistor

AIN

1.62

kΩ

≥ 4.5V

2.35

< 4.5V

Interchannel disparity

LSB

Analog port input current

AN00 to

AN23

μA

Analog input voltage

AN00 to

AN23

AVRL

AVRH

Reference voltage

AVRH

2.7

AVRL

*1: The conversion time is the value of sampling time (Ts) + compare time (Tc).

The condition of the minimum conversion time is when the value of sampling time: 600ns, the value of
compare time:1400ns (AV

≥ 4.5V).

Ensure that it satisfies the value of the sampling time (Ts) and compare clock cycle (Tcck).
For setting*

of the sampling time and compare clock cycle, see "Chapter: A/D Converter" in "FM3 Family

PERIPHERAL MANUAL Analog Macro Part".
The A/D Converter register is set at the peripheral clock timing. The sampling clock and compare clock are
set at Base clock (HCLK).

*2: A necessary sampling time changes by external impedance.

Ensure that it sets the sampling time to satisfy (Equation 1).

*3: The compare time (Tc) is the value of (Equation 2).
*4: The register setting of the A/D Converter is set at the timing of the APB bus clock.

The sampling clock and compare clock are set in base clock (HCLK).
About the APB bus number which the A/D Converter is connected to, see "



BLOCK DIAGRAM" in this

data sheet.

DS706-00062-0v01-E

114

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

・

Definition of 12-bit A/D Converter Terms

・

Resolution

: Analog variation that is recognized by an A/D converter.

・

Integral Nonlinearity

: Deviation of the line between the zero-transition point

(0b000000000000 ←→ 0b000000000001) and the full-scale transition point
(0b111111111110 ←→ 0b111111111111) from the actual conversion
characteristics.

・

Differential Nonlinearity : Deviation from the ideal value of the input voltage that is required to change

the output code by 1 LSB.

Integral Nonlinearity of digital output N =

- {1LSB × (N - 1) + V

}

[LSB]

1LSB

Differential Nonlinearity of digital output N =

(N + 1) T

- V

- 1 [LSB]

1LSB

1LSB =

FST

– V

4094

: A/D converter digital output value.

: Voltage at which the digital output changes from 0x000 to 0x001.

FST

: Voltage at which the digital output changes from 0xFFE to 0xFFF.

: Voltage at which the digital output changes from 0x(N − 1) to 0xN.

Integral Nonlinearity

Differential Nonlinearity

Dig

ita

l o

utp

Dig

ita

l o

utp

Actual conversion
characteristics

Actual conversion

characteristics

Ideal characteristics

(Actually-

measured

value)

Actual conversion
characteristics

Actual conversion characteristics

(Actually-measured

value)

(Actually-measured value)

Ideal characteristics

(Actually-measured

value)

Analog input

(Actually-measured

value)

0x001

0x002

0x003

0x004

0xFFD

0xFFE

0xFFF

AVRL

AVRH

AVRL

AVRH

0x(N-2)

0x(N-1)

0x(N+1)

0xN

{1 LSB(N-1) + V

}

FST

(N+1)T

DS706-00062-0v01-E

116

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

6. 10-bit D/A Converter



Electrical Characteristics for the D/A Converter (Preliminary value)

= AV

= 2.7V to 5.5V, V

= AV

= AVRL = 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol Pin name

Value

Unit

Remarks

Min

Typ

Max

Resolution

DAx

bit

Conversion time

tc20

0.47

0.58

0.69

μs

Load 20pF

tc100

2.37

2.90

3.43

μs

Load 100pF

Integral Nonlinearity *

INL

- 4.0

+ 4.0

LSB

Differential
Nonlinearity *

DNL

- 0.9

+ 0.9

LSB

Output Voltage offset

OFF

10.0

Code is 0x000

- 20.0

+ 5.4

Code is 0x3FF

Analog output
impedance

3.10

3.80

4.50

kΩ

D/A operation

2.0

MΩ

D/A stop

Output undefined period

*1: No-load

*2: Generates the max current by the CODE about 0x200

117

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

7. USB Characteristics

= 2.7V to 5.5V, USBV

= 3.0V to 3.6V, V

= 0V, Ta = - 40°C to + 105°C)

Parameter

Symbol

name

Conditions

Value

Unit Remarks

Min

Max

Input
charact-
eristics

Input "H" level voltage

UDP0,

UDM0

2.0

USBV

+ 0.3 V

Input "L" level voltage

- 0.3

0.8

Differential input
sensitivity

0.2

Different common mode
range

0.8

2.5

Output
charact-
eristics

Output "H" level voltage

External

pull-down

resistor =

15kΩ

2.8

3.6

Output "L" level voltage

External

pull-up

resistor =

1.5kΩ

0.0

0.3

Crossover voltage

CRS

1.3

2.0

Rising time

Full-Speed

ns *5

Falling time

Full-Speed

ns *5

Rising/falling time
matching

FRFM

Full-Speed

111.11

% *5

Output impedance

DRV

Full-Speed

Ω *6

Rising time

Low-Speed

300

ns *7

Falling time

Low-Speed

300

ns *7

Rising/falling time
matching

LRFM

Low-Speed

125

% *7

*1 : The switching threshold voltage of the Single-End-Receiver of USB I/O buffer is set as within V

(Max) = 0.8V, V

(Min) = 2.0 V (TTL input standard).

There are some hysteresis to lower noise sensitivity.

*2 : Use the differential-Receiver to receive the USB differential data signal.

The Differential-Receiver has 200 mV of differential input sensitivity when the differential data input is
within 0.8 V to 2.5 V to the local ground reference level.
The voltage range above is said to be the common mode input voltage range.

Common mode input voltage [V]

iffere

nti

inp

sen

tiv

ity

]

DS706-00062-0v01-E

118

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

8. Low-Voltage Detection Characteristics

(1) Low-Voltage Detection Reset (Preliminary value)

(Ta = - 40°C to + 105°C)

Parameter

Symbol

Conditions

Value

Unit

Remarks

Min

Typ

Max

Detected voltage

VDL

SVHR

= 00000

2.25

2.45

2.65

When voltage drops

Released voltage

VDH

2.30

2.50

2.70

When voltage rises

Detected voltage

VDL

SVHR

= 00001

2.39

2.60

2.81

When voltage drops

Released voltage

VDH

Same as SVHR = 0000

value

When voltage rises

Detected voltage

VDL

SVHR

= 00010

2.48

2.70

2.92

When voltage drops

Released voltage

VDH

Same as SVHR = 0000

value

When voltage rises

Detected voltage

VDL

SVHR

= 00011

2.58

2.80

3.02

When voltage drops

Released voltage

VDH

Same as SVHR = 0000

value

When voltage rises

Detected voltage

VDL

SVHR

= 00100

2.76

3.00

3.24

When voltage drops

Released voltage

VDH

Same as SVHR = 0000

value

When voltage rises

Detected voltage

VDL

SVHR

= 00101

2.94

3.20

3.46

When voltage drops

Released voltage

VDH

Same as SVHR = 0000

value

When voltage rises

Detected voltage

VDL

SVHR

= 00110

3.31

3.60

3.89

When voltage drops

Released voltage

VDH

Same as SVHR = 0000

value

When voltage rises

Detected voltage

VDL

SVHR

= 00111

3.40

3.70

4.00

When voltage drops

Released voltage

VDH

Same as SVHR = 0000

value

When voltage rises

Detected voltage

VDL

SVHR

= 01000

3.68

4.00

4.32

When voltage drops

Released voltage

VDH

Same as SVHR = 0000

value

When voltage rises

Detected voltage

VDL

SVHR

= 01001

3.77

4.10

4.43

When voltage drops

Released voltage

VDH

Same as SVHR = 0000

value

When voltage rises

Detected voltage

VDL

SVHR

= 01010

3.86

4.20

4.54

When voltage drops

Released voltage

VDH

Same as SVHR = 0000

value

When voltage rises

LVD stabilization
wait time

LVDW

6432 ×

CYCP

μs

LVD detection
delay time

LVDDL

200

μs

*1: The SVHR bit of Low-voltage Detection Voltage Control Register (LVD_CTL) is initialized to “0000” by

low-voltage detection reset.

*2: t

CYCP

indicates the APB2 bus clock cycle time.

DS706-00062-0v01-E

122

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

(2) Interrupt of Low-Voltage Detection (Preliminary value)

(Ta = - 40°C to + 105°C)

Parameter

Symbol

Conditions

Value

Unit

Remarks

Min

Typ

Max

Detected voltage

VDL

SVHI = 00011

2.58

2.80

3.02

When voltage drops

Released voltage

VDH

2.67

2.90

3.13

When voltage rises

Detected voltage

VDL

SVHI = 00100

2.76

3.00

3.24

When voltage drops

Released voltage

VDH

2.85

3.10

3.35

When voltage rises

Detected voltage

VDL

SVHI = 00101

2.94

3.20

3.46

When voltage drops

Released voltage

VDH

3.04

3.30

3.56

When voltage rises

Detected voltage

VDL

SVHI = 00110

3.31

3.60

3.89

When voltage drops

Released voltage

VDH

3.40

3.70

4.00

When voltage rises

Detected voltage

VDL

SVHI = 00111

3.40

3.70

4.00

When voltage drops

Released voltage

VDH

3.50

3.80

4.10

When voltage rises

Detected voltage

VDL

SVHI = 01000

3.68

4.00

4.32

When voltage drops

Released voltage

VDH

3.77

4.10

4.43

When voltage rises

Detected voltage

VDL

SVHI = 01001

3.77

4.10

4.43

When voltage drops

Released voltage

VDH

3.86

4.20

4.54

When voltage rises

Detected voltage

VDL

SVHI = 01010

3.86

4.20

4.54

When voltage drops

Released voltage

VDH

3.96

4.30

4.64

When voltage rises

LVD stabilization
wait time

LVDW

6432 ×

CYCP

μs

LVD detection
delay time

LVDDL

200

μs

*: t

CYCP

indicates the APB2 bus clock cycle time.

123

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

10. Return Time from Low-Power Consumption Mode

(1) Return Factor: Interrupt/WKUP

The return time from Low-Power consumption mode is indicated as follows. It is from receiving the
return factor to starting the program operation.

・

Return Count Time

= 2.7V to 5.5V, Ta = - 40°C to + 105°C)

Parameter

Symbol

Value

Unit

Remarks

Typ

Max*

SLEEP mode

Ticnt

CYCC

High-speed CR TIMER mode,
Main TIMER mode,
PLL TIMER mode

TBD

μs

Low-speed CR TIMER mode

TBD

μs

Sub TIMER mode

TBD

μs

RTC mode,
STOP mode

TBD

μs

Deep Standby RTC mode,
Deep Standby STOP mode

TBD

μs

When RAM is off

TBD

μs

When RAM is on

*: The maximum value depends on the accuracy of built-in CR.

・

Operation example of return from Low-Power consumption mode (by external interrupt*)

Ext.INT

Ticnt

Interrupt factor

CPU

Operation

Start

Active

Interrupt factor

clear by CPU

*: External interrupt is set to detecting fall edge.

125

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series



PACKAGE DIMENSIONS

176-pin plastic LQFP

Lead pitch

0.50 mm

Package width ×

package length

24.0 × 24.0 mm

Lead shape

Gullwing

Sealing method

Plastic mold

Mounting height

1.70 mm MAX

Code

(Reference)

P-LQFP-0176-2424-0.5 0

176-pin plastic LQFP

(FPT-176P-M07)

Details of "A" part

0°~8°

0.50±0.20

(.020±.008)

0.60±0.15

(.024±.006)

0.25(.010)

(Stand off)

(.004±.004)

0.10±0.10

1.50

+0.20

–0.10
+.008

–.004

.059

(Mounting height)

0.08(.003)

(.006±.002)

0.145±0.055

"A"

INDEX

LEAD No.

132

133

176

0.50(.020)

0.22±0.05

(.009±.002)

0.08(.003)

*24.00±0.10(.945±.004)SQ

26.00±0.20(1.024±.008)SQ

Dimensions in mm (inches).
Note: The values in parentheses are reference values.

Note 1) * : Values do not include resin protrusion.

Resin protrusion is +0.25(.010)Max(each side).

Note 2) Pins width and pins thickness include plating thickness
Note 3) Pins width do not include tie bar cutting remainder.

2004-2010 FUJITSU SEMICONDUCTOR LIMITED F176013S-c-1-3

Please check the latest package dimension at the following URL.
http://edevice.fujitsu.com/package/en-search/

DS706-00062-0v01-E

130

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

144-pin plastic LQFP

Lead pitch

0.50 mm

Package width ×

package length

20.0 × 20.0 mm

Lead shape

Gullwing

Sealing method

Plastic mold

Mounting height

1.70 mm MAX

Weight

1.20 g

Code

(Reference)

P-LFQFP144-20×20-0.50

144-pin plastic LQFP

(FPT-144P-M08)

Details of "A" part

0.25(.010)

(Stand off)

(.004±.004)

0.10±0.10

(.024±.006)

0.60±0.15

(.020±.008)

0.50±0.20

1.50

+0.20

–0.10
+.008

–.004

.059

0°~8°

0.50(.020)

"A"

0.08(.003)

0.145±0.055

(.006±.002)

LEAD No.

INDEX

108

109

144

0.22±0.05

(.009±.002)

0.08(.003)

22.00±0.20(.866±.008)SQ

(Mounting height)

* 20.00±0.10(.787±.004)SQ

Dimensions in mm (inches).
Note: The values in parentheses are reference values.

Note 1) *:Values do not include resin protrusion.

Resin protrusion is +0.25(.010)Max(each side).

Note 2) Pins width and pins thickness include plating thickness.
Note 3) Pins width do not include tie bar cutting remainder.

2003-2010 FUJITSU SEMICONDUCTOR LIMITED F144019S-c-4-8

Please check the latest package dimension at the following URL.
http://edevice.fujitsu.com/package/en-search/

131

DS706-00062-0v01-E

FUJITSU SEMICONDUCTOR CONFIDENTIAL

r1.1

MB9B320T Series

192-ball plastic FBGA

Ball pitch

0.80 mm

Package width ×

package length

12.00 mm × 12.00 mm

Lead shape

Ball

Sealing method

Plastic mold

Mounting height

1.45 mm Max.

Weight

0.34 g

192-ball plastic FBGA

(BGA-192P-M06)

12.00±0.10

(.472±.004)

S A B

REF

0.80(.031)

REF

192-ø0.45±0.10

(192-ø.018±.004)

ø0.08(.003)

0.20(.008) S A

0.10(.004)

(Stand off)

(.014±.004)

0.35±0.10

(Seated height)

1.25±0.20

(.049±.008)

0.20(.008) S B

12.00±0.10(.472±.004)

13
12
11

INDEX

(INDEX AREA)

10.40(.409)REF

10.40(.409)

REF

Dimensions in mm (inches).
Note: The values in parentheses are reference values.

2008-2010 FUJITSU SEMICONDUCTOR LIMITED B192006S-c-1-3

Please check the latest package dimension at the following URL.
http://edevice.fujitsu.com/package/en-search/

DS706-00062-0v01-E

132

FUJITSU SEMICONDUCTOR CONFIDENTIAL

FUJITSU SEMICONDUCTOR LIMITED, its subsidiaries and affiliates (collectively, "FUJITSU SEMICONDUCTOR")
reserves the right to make changes to the information contained in this document without notice. Please contact your
FUJITSU SEMICONDUCTOR sales representatives before order of FUJITSU SEMICONDUCTOR device.
Information contained in this document, such as descriptions of function and application circuit examples is presented
solely for reference to examples of operations and uses of FUJITSU SEMICONDUCTOR device. FUJITSU
SEMICONDUCTOR disclaims any and all warranties of any kind, whether express or implied, related to such
information, including, without limitation, quality, accuracy, performance, proper operation of the device or
non-infringement. If you develop equipment or product incorporating the FUJITSU SEMICONDUCTOR device based on
such information, you must assume any responsibility or liability arising out of or in connection with such information or
any use thereof. FUJITSU SEMICONDUCTOR assumes no responsibility or liability for any damages whatsoever arising
out of or in connection with such information or any use thereof.
Nothing contained in this document shall be construed as granting or conferring any right under any patents, copyrights, or
any other intellectual property rights of FUJITSU SEMICONDUCTOR or any third party by license or otherwise, express
or implied. FUJITSU SEMICONDUCTOR assumes no responsibility or liability for any infringement of any intellectual
property rights or other rights of third parties resulting from or in connection with the information contained herein or use
thereof.
The products described in this document are designed, developed and manufactured as contemplated for general use
including without limitation, ordinary industrial use, general office use, personal use, and household use, but are not
designed, developed and manufactured as contemplated (1) for use accompanying fatal risks or dangers that, unless
extremely high levels of safety is secured, could lead directly to death, personal injury, severe physical damage or other
loss (including, without limitation, use in nuclear facility, aircraft flight control system, air traffic control system, mass
transport control system, medical life support system and military application), or (2) for use requiring extremely high
level of reliability (including, without limitation, submersible repeater and artificial satellite). FUJITSU
SEMICONDUCTOR shall not be liable for you and/or any third party for any claims or damages arising out of or in
connection with above-mentioned uses of the products.
Any semiconductor devices fail or malfunction with some probability. You are responsible for providing adequate designs
and safeguards against injury, damage or loss from such failures or malfunctions, by incorporating safety design measures
into your facility, equipments and products such as redundancy, fire protection, and prevention of overcurrent levels and
other abnormal operating conditions.
The products and technical information described in this document are subject to the Foreign Exchange and Foreign Trade
Control Law of Japan, and may be subject to export or import laws or regulations in U.S. or other countries. You are
responsible for ensuring compliance with such laws and regulations relating to export or re-export of the products and
technical information described herein.
All company names, brand names and trademarks herein are property of their respective owners.

MB9B320T Series