Fujitsu MB91401 CFD15 CFD14 CFD13 CFD12, CFD11, CFD10 CFD9, CFD8, CFD7, CFD6, CFD5, CFD4, CFD0

Page 14

MB91401

Prelminary

2004.11.12

 

 

CARD IF (41 pin)

Pin name

Pin no.

Polarity

I/O

Circuit

Function/application

 

 

 

 

 

 

CFD15

2

 

 

 

 

CFD14

73

 

 

 

 

CFD13

72

 

 

 

 

CFD12

137

 

 

 

 

CFD11

136

 

 

 

 

CFD10

71

 

 

 

 

CFD9

192

 

 

 

CF data input/output pins

CFD8

135

 

 

I/O

B

I/O data/status/command signal pin to CompactFlash card

CFD7

70

 

 

 

side

CFD6

240

 

 

 

 

 

 

 

CFD5

191

 

 

 

 

CFD4

134

 

 

 

 

CFD3

69

 

 

 

 

CFD2

190

 

 

 

 

CFD0

133

 

 

 

 

CFD0

68

 

 

 

 

 

 

 

 

 

 

CFA10

189

 

 

 

 

CFA9

132

 

 

 

 

CFA8

67

 

 

 

 

CFA7

188

 

 

 

 

CFA6

131

 

 

CF address 10 to 0 output pins

CFA5

66

OUT

B

Address output CFA10 to CFA0 pins to CompactFlash card

CFA4

236

 

 

 

side

CFA3

187

 

 

 

 

CFA2

130

 

 

 

 

CFA1

65

 

 

 

 

CFA0

186

 

 

 

 

 

 

 

 

 

 

 

 

 

 

 

CF card enable output pin

 

 

Nega-

 

 

Byte access output pin to CompactFlash card side

CFCE2X

128

OUT

B

Note : Supported for access to CFD7 to CFD0.

tive

 

 

 

 

When “L” level is output, odd number byte access of the

 

 

 

 

 

 

 

 

 

 

word is shown.

 

 

 

 

 

 

 

 

 

 

 

CF card enable output pin

 

 

 

 

 

Byte access output pin to CompactFlash card side

 

 

 

 

 

Note : Supported for access to CFD7 to CFD0.

CFCE1X

63

Nega-

OUT

B

When “L” level is output at word access, even number byte

tive

access of the word is shown.

 

 

 

 

 

 

 

 

 

When the byte is accessed, the even number byte and odd

 

 

 

 

 

number byte access become possible because CFA0 and

 

 

 

 

 

CFCE2X are combined and used by it.

 

 

 

 

 

 

 

 

 

 

 

CF Attribute/Common switching output pin

 

 

Nega-

 

 

Attribute/Common switching output pin to CompactFlash

CFREGX

185

OUT

B

card side

tive

 

 

 

 

“H” : Common Memory select

 

 

 

 

 

 

 

 

 

 

“L” : Attribute Memory select

 

 

 

 

 

 

 

 

 

 

 

Card connection detect input pin : CFCD2X

CFCD2X

123

Nega-

IN

E

Checking connection pin of the socket and CompactFlash

tive

card. It is shown that the CompactFlash card was connected

 

 

 

 

 

 

 

 

 

when this signal and CFCD1X are both input by “0”.

 

 

 

 

 

 

 

 

 

 

 

(Continued)

14

Image 14
Contents Package FeaturesDescription Memory Interface Packet filtering functionGeneral Purpose IO Gpio USB Function ControllerCard Interface CompactFlash I2C InterfacePIN Assignment Index E F G H J K L M N P R T U V WPIN Number Table PIN Description GNDPin name Pin no Function/applicationICS1 OUT BreakiICS2 ICS0SOUT1 SIN1SIN0 SOUT0MB91401 Rxdv RxclkRxer RxcrsEXD15 ExcsxEXA EXD14Usbins UDPUDM UCLK48CFD10 CFD9 CFD15 CFD14 CFD13 CFD12CFD11 CFD8MB91401 Pllvdd SDASCL PllvssUSB I/O Circuit TypeType Circuit Remarks Circuit Remarks Preventing Latch-up Separation of power supply patternHandling Devices Treatment of output pins Treatment of the unused pinsTreatment of Open pins About power supply pinsConnected Specification of MB91401 and ICE Attached cable Part number RemarksRST Signal line name Wiring regulationsEvaluation MCU terminal name Pin treatment UV CCCircuit constants Description Pin name FunctionOsceb Bit data bus Holding request withdrawal demand function OFFAbout watch dog timer Treatment of Unused Input PinsAbout Mode pins MDI2 to MDI0 Operation at start-upORH AndhAndb ORBDMA Operand break Trace modeStep execution of Reti instruction Interrupt handler to NMI request toolBlock Diagram Authentication macroMemory Space General Purpose Registers Mode Register Modr Mode SettingsMode Pins RegisterFunction Remarks Bit1, bit0 WTH1, WTH0 Bus width setting bitsOperation mode MAP Address Register BlockSIDR0 R/W DRCL0 W UTIMC0 R/W TIMER0DRCL1 W UTIMC1 R/W TIMER1 UART0BSD1 Xxxxxxxx Ichrc R/WBSD0 Xxxxxxxx BsdcAddress Register Block DMASA1 Xxxxxxxx DMASA0 XxxxxxxxDMADA0 Xxxxxxxx DMADA1 XxxxxxxxDARR/W BC2RR/W Xxxxxxxx Bsrr BCRR/W CCRR/W ADRR/W1XXXXXXX 010FFFFF HSmicmdst Smistatusr SIM if Xxxxxxxx SmiintenableSMICMDR/W 00XXXXXX SIM ifExifrxrr Exifrxdr RExiftxdr W ExiftxrwFIFO3W XXXXXXXX-XXXXXXXX XXXXXXXX-XXXXXXXXFIFO1R FIFO2W XXXXXXXX-XXXXXXXX CONT1R/W XXXXX0XX-XXX00000XXXXXXXX-X0000000 XXXXXXXX-XXX00000 Interrupt Vector Interrupt Address of TBR Interrupt source OffsetDefault Interrupt Address of TBR Interrupt source Offset NMI Non Maskable InterruptMin Electrical CharacteristicsParameter Symbol Rating Unit ΣiolParameter Symbol Value Unit TypPin Conditions Value Unit Min Typ CfresetParameter TCK/TRST/TMS TDI/TDOPin Conditions Value Unit Input Levels High driven Vcrs standard range Mclko VDDE/2Usbc Unit Remarks Min Reset ParameterPin Conditions Mclko ↑ RDX Mclko ↑RDY Mclko ↑ SIN1, SIN0 SCK1, SCK0SOUT1, SOUT0 Sclk ↑Internal shift clock mode Rxer Rxclk ↑ Txen Txclk ↑Rxdv Rxclk ↑ Reception Mdio Mdclk ↑ OUT →Parameter Symbol Pin Value Unit Remarks Min External ifWrite access USB interface Parameter Symbol Pin UDP, UDMFull-speed Buffer SCL Pclk 10 I2C interfacePclk SDA PclkCFOEX, Cfiordx Card ifCFCE2X, CFCE1X CFWEX, Cfiowrx Parameter SymbolValue Unit Remarks Min Max CDWEX, CfiowrxOrdering Information Part number Package RemarksPackage Dimension Memo Europe JapanNorth and South America Asia Pacific

MB91401 specifications

The Fujitsu MB91401 microcontroller is a versatile device designed for automotive applications, embedded systems, and industrial control. It belongs to the MB91400 series, known for its robustness and efficiency. This series integrates advanced features and technologies that cater to a wide variety of real-time applications.

One of the standout features of the MB91401 is its 32-bit RISC architecture, which operates at clock speeds up to 40 MHz. This high-performance core enables rapid processing and data handling, making it suitable for demanding applications. The microcontroller is equipped with a generous amount of Flash memory, allowing developers to store essential firmware and applications directly on the chip, enhancing reliability and reducing design complexity.

Another key characteristic is its extensive memory configuration, which includes SRAM for data storage and EEPROM for non-volatile data retention. This combination provides flexibility for developers, enabling them to tailor the memory allocation based on specific application requirements.

The MB91401 is designed with a focus on peripheral integration. It features multiple I/O ports, timer units, and A/D converters, making it an ideal choice for applications that require precise timing and analog signal processing. The analog-to-digital converters offer high resolution and fast conversion speeds, which are critical in automotive and industrial control systems where accuracy is paramount.

Safety is a critical consideration in automotive applications, and the MB91401 addresses this with built-in diagnostic features and error detection capabilities. These features help ensure that the application remains functional and safe under various operating conditions.

In terms of connectivity, the microcontroller supports various communication protocols, including CAN, UART, and SPI, facilitating seamless integration with other systems and devices. This is particularly important in automotive applications where communication between different electronic control units (ECUs) is essential for overall system functionality.

The Fujitsu MB91401 is also designed for low power consumption, making it suitable for battery-operated devices and energy-sensitive applications. Its various power-saving modes allow developers to optimize the system's performance while extending operational life.

In summary, the Fujitsu MB91401 is a powerful and flexible microcontroller that combines high-performance processing with extensive peripheral support and safety features. Its robust architecture and energy-efficient design make it an excellent choice for a wide range of automotive and industrial applications, promoting both reliability and innovation in embedded system development.