MB91F669PMC-G-JNE1 Fujitsu, MB91F669PMC-G-JNE1 Datasheet

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... FR80 MB91665 Series MB91F669/F668/V650 ■ DESCRIPTION The MB91665 series is a line of Fujitsu microcontrollers based on a 32-bit RISC CPU core that feature a variety of peripheral functions for embedded applications that demand high-performance and high-speed CPU process- ing. This series is based on the FR80* family CPU and is implemented as a single chip. ...

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MB91665 Series • Instruction compatible with FR family CPU - Additional bit search instructions - No resource instructions and coprocessor instructions • Maximum operating frequency  CPU : 33 MHz  Resources : 33 MHz  External bus : 33 ...

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Interrupts  Total of 16 external interrupts (some pins are 5 V tolerant)  Interrupts from peripheral resources  Programmable interrupt levels (16 levels)  Can be used to return from stop mode, sleep mode • A/D converter  ...

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MB91665 Series (Continued) • USB function / HOST  1 channel  USB2.0 Full-Speed supported  The USB function and USB HOST are the switch types (USB I/O multiplexed)  Support of DMA transfer [USB Function]  Support of up ...

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PRODUCT LINEUP Part number Parameter Product type Built-in program memory capacity Built-in RAM capacity multi Address: 24 bits Data: 16/8 bits External bus interface split Address: 8 bits Data: 16/8 bits DMA controller (DMAC) Base timer Multifunction serial interface ...

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MB91665 Series ■ PIN ASSIGNMENT  LQFP-64 (MB91F669) P11/D09/SIN2/INT1 (5V tolerance) 1 P12/D10/SCK2/INT2 (5V tolerance,OD) 2 P13/D11/INT3 3 P14/D12/AIN1/INT4/OUT4 4 P15/D13/BIN1/INT5/OUT5 5 P16/D14/ZIN1/INT6/OUT6 6 P17/D15/INT7/OUT7 7 PH3/INT3_1 (5V tolerance) 8 Vcc 9 UDM 10 UDP 11 Vss 12 P20/A00/TMO1_1/A16 (5V ...

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LQFP-48 (MB91F668) 1 P11/D09/SIN2/INT1 (5V tolerance) 2 P12/D10/SCK2/INT2 (5V tolerance,OD) 3 P13/D11/INT3 4 P14/D12/AIN1/INT4/OUT4 5 P15/D13/BIN1/INT5/OUT5 6 P16/D14/ZIN1/INT6/OUT6 7 P17/D15/INT7/OUT7 8 PH3/INT3_1 (5V tolerance) 9 Vcc 10 UDM 11 UDP 12 Vss Note : The number after the underscore ...

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MB91665 Series ■ PIN DESCRIPTION The number after the underscore (“_”) in pin names such as XXX_1 and XXX_2 indicates the port number. For these pins, there are multiple pins that provide the same function for the same channel. Use ...

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Pin Number I/O Pin Name Circuit 64 pin 48 pin Type* P17 D15 INT7 OUT7 PH3 INT3_1  UDM USB 11 11 UDP USB  ...

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MB91665 Series Pin Number I/O Pin Name Circuit 64 pin 48 pin Type* P25 A05  OUT1 A21 P26 A06  OUT2 A22 P27 A07  OUT3 A23 PH2 SCK2_1 (SCL2_1) ...

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Pin Number I/O Pin Name Circuit 64 pin 48 pin Type INIT P PK1 25 17 X0A PK0 26 18 X1A  MD1 MD0 ...

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MB91665 Series Pin Number I/O Pin Name Circuit 64 pin 48 pin Type* P04 D04 TIOA2 SOUT1 (SDA1) IN4 P05 D05 37 29 TIOB2 Q SIN1 IN5 P06 D06 TIOA3 SCK1 (SCL1) IN6 P07 ...

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Pin Number I/O Pin Name Circuit 64 pin 48 pin Type* P51 CS1 TIOA2_1  SOUT1_1 (SDA1_1) P52 CS2  TIOB2_1 SIN1_1 P53 CS3 FRCK1 TIOA3_1  SCK1_1 (SCL1_1) P54 AS AIN1_1 44 33 ...

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MB91665 Series Pin Number I/O Pin Name Circuit 64 pin 48 pin Type* P56 WR0 ZIN1_1 FRCK0 SCK6 (SCL6) P57 WR1  TIOB3_1 TMI2_1   P70 ...

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Pin Number I/O Pin Name Circuit 64 pin 48 pin Type* P74 AN4 54 42 TMO2 E OUT4_1 INT20 P75 AN5 SOUT0 (SDA0 TMI0 OUT5_1 INT21 P76 AN6 SIN0 TMI1 OUT6_1 INT22 P77 AN7 ...

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MB91665 Series (Continued) Pin Number I/O Pin Name Circuit 64 pin 48 pin Type* P81 AN9 59 47 IN1_1 TMI1_1 P82  60 AN10 IN2_1 P83  61 AN11 IN3_1 P60 RDY TIOA1_1  62 SOUT2_1 (SDA2_1) P61 SYSCLK  ...

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I/O CIRCUIT TYPE Type Circuit Standby control B P-ch P-ch N-ch R DS07-16916-2E MB91665 Series • Oscillation feedback resistance approx. 1 M Clock input • With standby control • CMOS level output • CMOS level input ...

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MB91665 Series Type Circuit C P- • CMOS level output • CMOS level hysteresis input • With pull-up control • With standby control Digital output P-ch Note: When this pin is used Digital ...

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Type Circuit E P-ch R Input control I X1A P-ch N-ch R Standby control R X0A P-ch N-ch DS07-16916-2E • CMOS level output • CMOS level hysteresis input • With input control • Analog input • With pull-up control Digital ...

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MB91665 Series (Continued) Type Circuit P N-ch N-ch N-ch N- USB UDP(+) Differential UDM(-) 20 • Flash memory product only • CMOS level hysteresis input • High voltage control for testing Flash Control pin N-ch Mode input R ...

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... 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. ...

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... 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, per- sonal or household devices, etc.). ...

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... Avoid storing packages where they are exposed to corrosive gases or high levels of dust.  Baking Packages that have absorbed moisture may be de-moisturized by baking (heat drying). Follow the FUJITSU SEMICONDUCTOR recommended conditions for baking. Condition: 125 C/24 h  Static Electricity ...

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... CAUTION: Plastic molded devices are flammable, and therefore should not be used near combustible substanc- es. If devices begin to smoke or burn, there is danger of the release of toxic gases. Customers considering the use of FUJITSU SEMICONDUCTOR products in other special environmental con- ditions should consult with sales representatives. ...

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HANDLING DEVICES  Power supply pins In products with multiple V and V CC device in order to prevent malfunctions such as latch-up. However, all of these pins should be connected externally to the power supply or ground lines ...

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... On this microcontroller case the crystal oscillator breaks off or an external reference clock input stops while the PLL clock mode is selected, a self-oscillator circuit contained in the PLL may continue its operation at its self-running frequency. However, Fujitsu will not guarantee results of operations if such failure occurs pins ...

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BLOCK DIAGRAM Built-in program memory Flash memory DMAC 4 channels External bus I/F Clock control Watchdog timer Interrupt controller Delay interrupt External interrupt 16 channels 16 -bit reload timer 3 channels Base timer 4 channels Up/down counter 1 channel ...

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MB91665 Series ■ MEMORY SPACE 1. Memory Space The FR family has 4 Gbytes of logical address space (2  Direct Addressing Areas The following areas in the address space are used as I/O areas. These areas are called direct ...

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Memory Map FFFF FFFF Notes :  Small sector area is related to flash products only. Please refer to the Flash Memory section of the Hardware Manual for more details.  Do not access the reserved areas. DS07-16916-2E MB91F668/F669 ...

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MB91665 Series ■ I/O MAP [How to read the table] Address  0 PDR0 [R/ PDR1 [R/ 0000 0000 H XXXXXXXX WDTCR0 [R/W] WDTCPR0 [R/W] 0000 003C 0000 EIRR0 ...

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Address +0 PDR0 [R/W] B,H PDR1 [R/W] B,H 0000 0000 H XXXXXXXX PDR5 [R/W] B,H  0000 0004 H PDR8 [R/W] B,H 0000 0008 H XXXXXXXX 0000 000C H PDRH [R/W] B,H  0000 0010 H PDRK [R/W] B 0000 ...

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MB91665 Series Address +0 SCR0[R/W] IBCR0[R,R/W] 0000 0060 H B,H, 00000 RDR0[R]/TDR0[W] B,H,W* 0000 0064 00000000 SCR1[R/W] IBCR1[R,R/W] 0000 0068 H B,H, 00000 ...

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Address +0 ISMK0 [R/W] 0000 00BC B, 0000 00C0 H to 0000 0110 H EIRR2[R/W] 0000 0114 B,H,W H 00000000 0000 0118 H to 0000 011C H ADSR0[R,R/W] ADCR0[R/W] B,H ...

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MB91665 Series Address +0 BT1TMR[R]H 0000 0150 H 00000000 00000000 BT1STC[R/W]B  0000 0154 H BT1PCSR/BT1PRLL[R/W]H 0000 0158 H XXXXXXXX XXXXXXXX 0000 015C H BT2TMR[R]H 0000 0160 H 00000000 00000000 BT2STC[R/W]B  0000 0164 H BT2PCSR/BT2PRLL[R/W]H 0000 0168 H XXXXXXXX ...

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Address +0 0000 01C0 H to 0000 01CC H RCRH1 [W] H,W 0000 01D0 H 00000000 CCR1 [R,R/W] B,H 0000 01D4 H 00000000 -0001000 0000 01D8 H 0000 01DC H to 0000 01FC H 0000 0200 H 11111111 11111111 11111111 ...

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MB91665 Series Address +0 0000 0234 H 00000000 00000000 00000000 00000000 0000 0238 H 00000000 00000000 00000000 00000000 0000 023C H 00000000 00000000 00000000 00000000 0000 0240 H 00000000 00000000 00000000 00000000 OCSH1 [R/W] 0000 0244 B,H ...

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Address +0  0000 0338 H 0000 033C H 0000 0340 H to 0000 037C H 0000 0380 XXXXXX XXXXXXXX XXXXXX- - 0000 0384 H XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX ...

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MB91665 Series Address +0 0000 03C4 H XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX 0000 03C8 XXXXXX XXXXXXXX XXXXXX- - 0000 03CC H XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX 0000 03D0 ...

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Address +0 DDRK [R/W] B 0000 0414 0000 0000 0418 H to 0000 041C H PCR0 [R/W] B,H PCR1 [R/W] B,H 0000 0420 H 00000000 PCR5 [R/W] B  0000 0424 H PCR8 [R/W] B,H ...

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MB91665 Series Address +0 ICR32 [R,R/W] 0000 0460 B,H 11111 ICR36 [R,R/W] 0000 0464 B,H 11111 ICR40 [R,R/W] 0000 0468 B,H 11111 ICR44 [R,R/W] 0000 046C B,H,W H ...

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Address +0 EPFR0 [R/W] B,H EPFR1 [R/W] B,H 0000 04B8 000000 EPFR4 [R/W] B,H EPFR5 [R/W] B,H 0000 04BC H 00000000 EPFR8 [R/W] B,H EPFR9 [R/W] B,H 0000 04C0 00000 EPFR12 [R/W] EPFR13 ...

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MB91665 Series Address +0 0000 0500 H 0000 0504 H For the initial value, see the I/O Ports section of the Hardware Manual. 0000 0508 H to 0000 050C H CSELR [R/W] 0000 0510 B,H,W H 001 ...

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Address +0 0000 0680 1111 00000000 11110000 00000- 0- 0000 0684 XXXX XXXXXXXX XXXXXXXX XXXXX- X- 0000 0688 XXXX XXXXXXXX XXXXXXXX XXXXX- X- 0000 068C ...

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MB91665 Series Address +0 DCSR3 [R, R/W] H 0000 0C34 000 0000 0C38 H XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX 0000 0C3C H XXXXXXXX XXXXXXXX XXXXXXXX XXXXXXXX 0000 0C40 ...

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Address +0  0000 2120 H EP0C[R/W] H 0000 2124 1000000 EP1C[R/W] H 0000 2128 H 01100001 00000000 EP2C[R/W] H 0000 212C H 0110000- - 1000000 EP3C[R/W] H 0000 2130 H ...

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MB91665 Series (Continued) Address +0 0000 2170 H to 0000 217C H 0000 2180 H to 0000 21A0 H DREQSEL [R/W] USBSEL [R/W] 0000 21A4 B,H H 00111011 0000 21A8 H to 0000 FFFC Byte access is ...

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VECTOR TABLE Interrupt Source (Peripheral Function) Reset Reserved for system Reserved for system Reserved for system Reserved for system Reserved for system Reserved for system Reserved for system Reserved for system INTE instruction Reserved for system Reserved for system ...

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MB91665 Series Interrupt Source (Peripheral Function) Transmission interrupt request from UART/CSIO ch.2 Transmission bus idle interrupt request from UART/CSIO ch.2 Status interrupt request from ch.2 Reserved Reserved Reserved Reserved Reserved Reserved Reception interrupt request ...

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Interrupt Source (Peripheral Function) Reserved Reserved USB function (End point for DRQ) USB function (End point 0 for DRQI, DRQO and each status)/USB HOST (each status) Reserved DMA Controller (DMAC) ch.0 DMA Controller (DMAC) ch.1 DMA ...

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MB91665 Series * : USB interrupt source Interrupt Number Decimal Hexadecimal USB function 54 36 (DRQ of End Point USB function (DRQI, DRQO of End Point 0 and each status USB HOST (Each status) 50 ...

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PIN STATUS IN EACH CPU STATE • When INIT = “L” This is the period when the INIT pin is the “L” level. • When INIT = “H” The status immediately after the INIT pin changes from the “L” ...

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MB91665 Series  List of pin status Pin Function Name Name INIT INIT X0A (When INIT input, see PK1. X0A When port selected, input disabled) X1A (When INIT input, see PK0. X1A When port selected, input ...

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Pin Function Name Name P20 P20/A00/TMO1_1/A16 P21 P21/A01/TMO2_1/A17 P22 P22/A02/TIOA0_1/A18 P23 P23/A03/TIOB0_1/A19 P24 P24/A04/OUT0/A20 P25 P25/A05/OUT1/A21 P26 P26/A06/OUT2/A22 P27 P27/A07/OUT3/A23 P50 P50/CS0/TMO0_1 P51 P51/CS1/TIOA2_1/SOUT1_1 P52 P52/CS2/TIOB2_1/SIN1_1 P53/CS3/FRCK1/TIOA3_1/ P53 SCK_1 P54 P54/AS/SOUT6/AIN1_1 P55 P55/RD/SIN6/BIN1_1/ADTRG0 P56 P56/WR0/SCK6/ZIN1_1/FRCK0 P57 P57/WR1/TIOB3_1/TMI2_1 P60 P60/RDY/TIOA1_1/SOUT2_1 P61 ...

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MB91665 Series (Continued) Pin Function Name Name P80 P80/AN8/IN0_1/TMI0_1 P81 P81/AN9/IN1_1/TMI1_1 P82 P82/AN10/IN2_1 P83 P83/AN11/IN3_1 PH2 PH2/SCK2_1/INT2_1 PH3 PH3/INT3_1 PK0 PK0 PK1 PK1 UDP UDP (USB) UDM UDM (USB) 54 During initialization Sleep INIT  “L” INIT  “H” Mode ...

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List of pin status (serial write mode) Pin Function name INIT INIT X0A (When INIT input, see PK1. X0A When port selected, input disabled) X1A (When INIT input, see PK0. X1A When port selected, input ...

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MB91665 Series Pin Function name P20 P20/A00/TMO1_1/A16 P21 P21/A01/TMO2_1/A17 P22 P22/A02/TIOA0_1/A18 P23 P23/A03/TIOB0_1/A19 P24 P24/A04/OUT0/A20 P25 P25/A05/OUT1/A21 P26 P26/A06/OUT2/A22 P27 P27/A07/OUT3/A23 P50 P50/CS0/TMO0_1 P51 P51/CS1/TIOA2_1/SOUT1_1 P52 P52/CS2/TIOB2_1/SIN1_1 P53/CS3/FRCK1/TIOA3_1/ P53 SCK_1 P54 P54/AS/SOUT6/AIN1_1 P55 P55/RD/SIN6/BIN1_1/ADTRG0 P56 P56/WR0/SCK6/ZIN1_1/FRCK0 P57 P57/WR1/TIOB3_1/TMI2_1 P60 P60/RDY/TIOA1_1/SOUT2_1 ...

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Pin Function name PH2 PH2/SCK2_1/INT2_1 PH3 PH3/INT3_1 PK0 PK0 PK1 PK1 UDP UDP (USB) UDM UDM (USB) DS07-16916-2E MB91665 Series During During asynchronous initialization write operation INIT  “L” INIT  “H” Output Hi-Z/ Output Hi-Z Input enabled Output ...

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MB91665 Series ■ ELECTRICAL CHARACTERISTICS 1. Absolute Maximum Ratings Parameter 1 2 Power supply voltage Analog power supply voltage Analog reference voltage Input voltage Analog pin input voltage* ...

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The total average output current is the average current for all pins over a period of 100 ms the input current or the maximum input current are limited by some means with external components, ...

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MB91665 Series 2. Recommended Operating Conditions Parameter Symbol Power supply voltage Analog power supply voltage AV Analog reference voltage AVRH Operating temperature WARNING: The recommended operating conditions are required in order to ensure the normal operation of the semiconductor device. ...

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DC Characteristics Not using USB : (V Using USB : (V Sym- Parameter Pin name bol I CC Power supply V CC current I CCS I CCL I CCT I CCH P00 to P07* P10 to P17* “H” level ...

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MB91665 Series (Continued) Sym- Parameter Pin name bol P00 to P07* P10 to P17* P20, P21, P22 to P27, “ ”level input P50 to P57, P60* L voltage P61, P70, P71, V ILS (hysteresis P72 to P77, input) P80 to ...

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V-I characteristics Conditions Min : Process  Slow, Ta   85 C, V Typ : Process  Typical, Ta   25 C, V Max : Process  Fast, Ta   40  ...

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MB91665 Series 4. AC Characteristics (1) Main Clock (MCLK) Input Standard Not using USB : (V Using USB : (V Parameter Symbol Input frequency F CH Input clock cycle t CYLH  Input clock pulse width Input clock rise time ...

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Operating guaranteed range (Not using USB) • When the main clock is selected (DIVB=000) 3.6 3.3 3.0 2.7 2 • When the PLL clock is selected (DIVB=000) 3.6 3.3 3.0 2.7 2 ...

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MB91665 Series  Example of configuration (Not using USB) • When the main clock is selected (DIVB=000 • When ...

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Operating guaranteed range (at using USB) • When the main clock is selected (DIVB  000* 3.6 3.3 3.0 2.7 2 • When the PLL clock is selected (DIVB  000* or DIVB  000* ...

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MB91665 Series  Example of configuration (at using USB) • When the main clock is selected (DIVB  000 ...

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The values other than DIVB  000 are omitted. *2: The values other than PDS  0000, 0001,0010 are omitted. *3: The values other than ODS  10 are omitted. *4: The values other than PMS  0001,0111 ...

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MB91665 Series (2) Sub Clock (SBCLK) Input Standard Not using USB : (V Using USB : (V Parameter Symbol Pin name Conditions Input frequency F CL X0A, Input clock cycle t CYLL X1A Input clock pulse  width Input clock ...

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Conditions of PLL Not using USB : (V Using USB : (V Parameter Symbol PLL oscillation stabilization t LOCK wait time (LOCK UP time) PLL input clock frequency f PLLI  PLL multiple rate PLL macro oscillation clock f ...

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MB91665 Series (5) Reset Input Standards Not using USB : (V Using USB : (V Parameter Symbol Pin name Reset input time (At power-on, main oscillation stop mode) t INITX Reset input time (At other times) Reset input rise time ...

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Clock Output Timing  t  (divided CHCL CLCH Not using USB : (V Using USB : (V Parameter Symbol Cycle time t CYC SYSCLKSYSCLK t CHCL SYSCLKSYSCLK ...

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MB91665 Series  t  (divided CHCL CLCH Not using USB : (V Using USB : (V Parameter Symbol Cycle time t CYC SYSCLKSYSCLK t CHCL SYSCLKSYSCLK t CLCH * : This pin ...

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External Bus Access Read/Write Operation Not using USB : (V Using USB : (V Parameter Symbol t CHASL AS delay time t CHASH t CHCSL CS0 to CS3 delay time t CHCSH t CHAV Address delay time t CHAX ...

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MB91665 Series t CYC V OH SYSCLK t CHASL CHCSL CS0 to CS3 CHAV V OH A23 to A00 D15 to D00 WR0,WR1 V OH D15 to D00 V OL ...

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Multiplexed Bus Access Read/Write Operation Not using USB : (V Using USB : (V Parameter Symbol SYSCLK  D15 to D00 t address delay time SYSCLK  D15 to D00 data delay time *: This pin is not existed ...

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MB91665 Series (9) Ready Input Timing (MB91F669 only) Not using USB : (V Using USB : (V Parameter RDY setup time  SYSCLK SYSCLK RDY hold time SYSCLK RDY (wait applied) RDY (wait not applied) 78  AV  2.7 ...

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Base Timer Input Timing  Timer input timing Not using USB : (V Using USB : (V Parameter Symbol t , TIWH Input pulse width t TIWL ECK V TIN  Trigger Input Timing Not using USB : (V ...

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MB91665 Series (11) Synchronous serial (CSIO) timing Not using USB : (V Using USB : (V  Synchronous serial (SPI  0, SCINV  0) Parameter Symbol Serial clock cycle time SCK   SOUT delay time SIN  SCK ...

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V IHS SCK V ILS SLOVE SOUT SIN  Synchronous serial (SPI  0, SCINV  1) Sym- Parameter bol Serial clock cycle time t SCYC SCK  SOUT delay time t SHOVI SIN  SCK  ...

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MB91665 Series V OH SCK t SHOVI SOUT SIN V IHS V SCK ILS SHOVE SOUT SIN 82 t SCYC IVSLI SLIXI V V IHS IHS V V ILS ...

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Synchronous serial (SPI  1,SCINV  0) Parameter Symbol Serial clock cycle time t SCK  SOUT delay time t SHOVI SIN  SCK  setup time t SCK   SIN hold time t SOUT  SCK  ...

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MB91665 Series SCK * V OH SOUT IHS SIN V ILS * : Changes when writing to TDR register  Synchronous serial (SPI  1, SCINV  1) Sym- Parameter Serial clock cycle time t SCK  ...

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SCK V OH SOUT IHS SIN V ILS SCK V OH SOUT IHS SIN V ILS  External clock (EXT  asynchronous only Parameter Serial clock “L” pulse width Serial clock “H” ...

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MB91665 Series (12) Free-run Timer Clock, Reload Timer Event Input, Up/down Counter Input, Input Capture Input, Interrupt Input Timing Not using USB : (V Using USB : (V Parameter Symbol t , TIWH Input pulse width t TIWL *1 : ...

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Timing Not using USB : (V Using USB : (V Parameter Symbol Pin name SCL clock frequency f SCL “(Repeated) START condition” hold time t HDSTA SDA   SCL  SCL clock “L” width t ...

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MB91665 Series SDA t LOW SCL t t HDSTA HDDAT 88 t SUSTA t SUDAT t t HIGH HDSTA t BUF SUSTO DS07-16916-2E ...

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Electrical Characteristics for the A/D Converter Not using USB : (V Using USB : (V Parameter Pin name  Resolution  Total error  Linearity error  Differential linearity error Zero transition voltage AN0 to AN11* Full transition voltage ...

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MB91665 Series (Continued The current when the CPU is in stop mode and the A/D converter is not operating Compare time = {(CT  1)  10  4}  peripheral clock (PCLK) period. (CT indicates ...

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Definition of 10-bit A/D Converter Terms • Resolution : Analog variation that is recognized by an A/D converter. • Linearity error : Deviation of the line between the zero-transition point (00000000000000000001) and the full-scale transition point (11111111101111111111) from the ...

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MB91665 Series (Continued) 3FF H Actual conversion 3FE H characteristics 3FD H {1 LSB' (N − 0.5 LSB'} 004 H 003 H 002 H 001 LSB' (Ideal value)  Total error of digital output ...

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USB Characteristics Parameter Input High level voltage Input Low level voltage Input characteristics Differential input sensitivity Differential common mode input voltage Output High level voltage Output Low level voltage Output characteristics Crossover voltage Rise time Fall time Rise/fall time ...

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MB91665 Series *2 : Use differential-Receiver to receive USB differential data signal. 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. Above voltage ...

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The place to connect transceiver edge rate control capacitance C For this USB I/ recommended to use C For USB Max standard as 75 pF, please control the edge characteristic of output waveform by connecting ...

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MB91665 Series 7. Flash Memory Write/Erase Characteristics Parameter Min  Sector erase time  Half word (16bits) write time  Chip erase time* 1 Erase/write cycles 10000 Flash memory 10* 2 data hold time *1 : The chip erase time ...

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... ORDERING INFORMATION Part number MB91F669PMC MB91F668PMC DS07-16916-2E MB91665 Series Package 64-pin plastic LQFP (FPT-64P-M24) 48-pin plastic LQFP (FPT-48P-M26) 97 ...

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... INDEX 48 LEAD No. 1 0.50(.020) (.008±.002) 2003-2010 FUJITSU SEMICONDUCTOR LIMITED F48040S-c-2-3 C Please check the latest package dimension at the following URL. http://edevice.fujitsu.com/package/en-search/ 98 Lead pitch Package width × package length Lead shape Sealing method Mounting height ...

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... INDEX "A" 64 LEAD No. 1 0.50(.020) 0.20 ± 0.05 (.008 ± .002) 2006-2010 FUJITSU SEMICONDUCTOR LIMITED F64036S-1c(D)-1-3 C Please check the latest package dimension at the following URL. http://edevice.fujitsu.com/package/en-search/ DS07-16916-2E Lead pitch Package width × package length Lead shape Sealing method ...

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MB91665 Series ■ MAIN CHANGES IN THIS EDITION Page Section ■ FEATURES 4 ■ I/O MAP 34 ■ ELECTRICAL CHARACTERISTICS Characteristics The vertical lines marked in the left side of the page show the changes. 100 Change ...

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MEMO DS07-16916-2E MB91665 Series 101 ...

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MB91665 Series MEMO 102 DS07-16916-2E ...

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MEMO DS07-16916-2E MB91665 Series 103 ...

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... Please note that FUJITSU SEMICONDUCTOR will not be liable against you and/or any third party for any claims or damages arising in connection with above-mentioned uses of the products. ...