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| To all our customers Regarding the change of names mentioned in the document, such as Mitsubishi Electric and Mitsubishi XX, to Renesas Technology Corp. The semiconductor operations of Hitachi and Mitsubishi Electric were transferred to Renesas Technology Corporation on April 1st 2003. These operations include microcomputer, logic, analog and discrete devices, and memory chips other than DRAMs (flash memory, SRAMs etc.) Accordingly, although Mitsubishi Electric, Mitsubishi Electric Corporation, Mitsubishi Semiconductors, and other Mitsubishi brand names are mentioned in the document, these names have in fact all been changed to Renesas Technology Corp. Thank you for your understanding. Except for our corporate trademark, logo and corporate statement, no changes whatsoever have been made to the contents of the document, and these changes do not constitute any alteration to the contents of the document itself. Note : Mitsubishi Electric will continue the business operations of high frequency & optical devices and power devices. Renesas Technology Corp. Customer Support Dept. April 1, 2003 PR ge. ion. icat to chan ecif l sp ubject a a fin es not mits ar li is is : Th metric ice Not e para Som I LIM E Y NAR MITSUBISHI MICROCOMPUTERS M37754M6C-XXXGP M37754M6C-XXXHP SINGLE-CHIP 16-BIT CMOS MICROCOMPUTER DESCRIPTION The M37754M6C-XXXGP and M37754M6C-XXXHP are single-chip microcomputers designed with high-performance CMOS silicon gate technology. This is housed in a 100-pin plastic molded QFP . This microcomputer has a CPU and a bus interface unit. The CPU is a 16-bit parallel processor that can also be switched to perform 8-bit parallel processing, and the bus interface unit enhances the memory access efficiency to execute instructions fast. In addition to the 7700 Family basic instructions, the M37754M6CXXXGP and M37754M6C-XXXHP has 6 special instructions which contain instructions for signed multiplication/division; these added instructions improve the servo arithmetic performance to control hard disk drives and so on. This microcomputer also include the ROM, RAM, multiple-function timers, motor control function, serial I/O, A-D converter, D-A converter, and so on. * Single power supply ....................................................... 5V 10 % * Low power dissipation (at 40 MHz frequency) ....... 125 mW (Typ.) * Interrupts ............................................................ 21 types, 7 levels * Multiple-function 16-bit timer ................................................... 5+3 * * * * * * (three-phase motor drive waveform or pulse motor control waveform output) Serial I/O (UART or clock synchronous) ..................................... 2 10-bit A-D converter ............................................ 8-channel inputs 8-bit D-A converter ............................................ 2-channel outputs 12-bit watchdog timer Programmable input/output (ports P0--P11) ......................................................................... 87 Small package [M37754M6C-XXXHP] ................................. 100-pin fine pitch QFP (read pitch : 0.5 mm) APPLICATION Control devices for personal computer peripheral equipment such as CD-ROM drives, hard disk drives, high density FDD, printers Control devices for office equipment such as copiers and facsimiles Control devices for industrial equipment such as communication and measuring instruments Control devices for equipment required for motor control such as inverter air conditioner and general purpose inverter DISTINCTIVE FEATURES * Number of basic machine instructions .................................... 109 * * (103 basic instructions of 7700 Family + 6 special instructions) Memory size ROM ................................................ 48 Kbytes RAM ................................................2048 bytes Instruction execution time The fastest instruction at 40 MHz frequency ...................... 100 ns P87/TXD1 P86/RXD1 P85/CLK1 P84/CTS1/RTS1/DA1/INT4 P83/TXD0 P82/RXD0/CLKS0 P81/CLK0 P80/CTS0/RTS0/CLKS1/DA0 VCC AVCC VREF AVSS VSS P77/AN7/ADTRG P76/AN6 P75/AN5 P74/AN4 P73/AN3 P72/AN2 P71/AN1 80 79 78 77 76 75 74 73 72 71 70 69 68 67 66 65 64 63 62 61 60 59 58 57 56 55 54 53 52 51 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 P00/A0 P01/A1 P02/A2 P03/A3 P04/A4 P05/A5 P06/A6 P07/A7 P10/A8 P11/A9 P12/A10 P13/A11 P14/A12 P15/A13 P16/A14 P17/A15 P20/A16 P21/A17 P22/A18 P23/A19 P27/A23 P100/D0/LA0 P101/D1/LA1 P102/D2/LA2 P103/D3/LA3 P104/D4/LA4 P105/D5/LA5 P106/D6/LA6 P107/D7/LA7 P110/D8 M37754M6C-XXXGP PIN CONFIGURATION (TOP VIEW) M37754M6C-XXXGP 50 49 48 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 P111/D9 P112D10 P113/D11 P114/D12 P115/D13 P116/D14 P117/D15 P30/WR P31/BHE P32/ALE P33/HLDA VCC VSS E/RD XOUT XIN RESET CNVSS BYTE P40/HOLD P70/AN0 P95/INT3/KI4 P94/CS4/RTP13 P93/CS3/A22/RTP12 P92/CS2/A21/U/RTP11 P91/CS1/A20/V/RTP10 P90/CS0 P67/TB2IN P66/TB1IN P65/TB0IN P64/INT2 P63/INT1 P62/INT0 P61/TA4IN P60/TA4OUT P57/TA3IN/KI3 P56/TA3OUT/KI2 P55/TA2IN/KI1 P54/TA2OUT/KI0 P53/TA1IN/W/RTP03 P52/TA1OUT/U/RTP02 P51/TA0IN/V/RTP01 P50/TA0OUT/W/RTP00 P47 P46 P45 P44 P43 P42/1 P41/RDY 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 Outline 100P6S-A PR e. n. atio chang cific o spe bject t l fina su ot a its are is n m This etric li m ice: Not e para Som MI ELI Y NAR MITSUBISHI MICROCOMPUTERS M37754M6C-XXXGP M37754M6C-XXXHP SINGLE-CHIP 16-BIT CMOS MICROCOMPUTER M37754M6C-XXXHP PIN CONFIGURATION (TOP VIEW) 75 P03/A3 74 P04/A4 73 P05/A5 72 P06/A6 71 P07/A7 70 P10/A8 69 P11/A9 68 P12/A10 67 P13/A11 66 P14/A12 65 P15/A13 64 P16/A14 63 P17/A15 62 P20/A16 61 P21/A17 60 P22/A18 59 P23/A19 58 P27/A23 57 P100/D0/LA0 56 P101/D1/LA1 55 P102/D2/LA2 54 P103/D3/LA3 53 P104/D4/LA4 52 P105/D5/LA5 51 P106/D6/LA6 P02/A2 76 P01/A1 77 P00/A0 78 P87/TXD1 79 P86/RXD1 80 P85/CLK1 81 P84/CTS1/RTS1/DA1/INT4 82 P83/TXD0 83 P82/RXD0/CLKS0 84 P81/CLK0 85 P80/CTS0/RTS0/CLKS1/DA0 86 87 VCC 88 AVCC VREF 89 90 AVSS 91 VSS P77/AN7/ADTRG 92 P76/AN6 93 P75/AN5 94 P74/AN4 95 P73/AN3 96 P72/AN2 97 P71/AN1 98 P70/AN0 99 P95/INT3/KI4 100 M37754M6C-XXXHP 50 P107/D7/LA7 49 P110/D8 48 P111/D9 47 P112/D10 46 P113/D11 45 P114/D12 44 P115/D13 43 P116/D14 42 P117/D15 41 P30/WR 40 P31/BHE 39 P32/ALE 38 P33/HLDA 37 VCC 36 VSS 35 E/RD 34 XOUT 33 XIN 32 RESET 31 CNVSS 30 BYTE 29 P40/HOLD 28 P41/RDY 27 P42/1 26 P43 Differences between M37754M6C-XXXGP and M37754M6C-XXXHP Product M37754M6C-XXXGP M37754M6C-XXXHP Package 100-pin QFP (100P6S-A) 100-pin fine pitch QFP (100P6Q-A) 2 P94/CS4/RTP13 1 P93/CS3/A22/RTP12 2 P92/CS2/A21/U/RTP11 3 P91/CS1/A20/V/RTP10 4 P90/CS0 5 P67/TB2IN 6 P66/TB1IN 7 P65/TB0IN 8 P64/INT2 9 P63/INT1 10 P62/INT0 11 P61/TA4IN 12 P60/TA4OUT 13 P57/TA3IN/KI3 14 P56/TA3OUT/KI2 15 P55/TA2IN/KI1 16 P54/TA2OUT/KI0 17 P53/TA1IN/W/RTP03 18 P52/TA1OUT/U/RTP02 19 P51/TA0IN/V/RTP01 20 P50/TA0OUT/W/RTP00 21 P47 22 P46 23 P45 24 P44 25 Outline 100P6Q-A PR e. n. atio chang cific o spe bject t l fina su ot a its are is n m This etric li m ice: Not e para Som MI ELI Y NAR MITSUBISHI MICROCOMPUTERS M37754M6C-XXXGP M37754M6C-XXXHP SINGLE-CHIP 16-BIT CMOS MICROCOMPUTER Bus width select input BYTE Data Bus(Even) Data Bus(Odd) Input/Output port P0 Input/Output port P9 Input/Output port P8 Input/Output port P7 Input/Output port P6 Input/Output port P5 Input/Output port P4 Input/Output port P11 Input/Output Input/Output Input/Output Input/Output port P3 port P2 port P1 port P10 P0 (8) P9(6) P8(8) P7(8) P6(8) P5(8) P4(8) P11(8) P10 (8) P3 (4) P2 (5) P1 (8) Data Buffer DBH(8) Data Buffer DBL(8) Reference voltage input VREF Instruction Register(8) Instruction Queue Buffer Q0(8) Instruction Queue Buffer Q1(8) Instruction Queue Buffer Q2(8) (5V) AVCC Address Bus (0V) AVSS Incrementer(24) D-A1 Converter(8) UART 1(9) Data Address Register DA(24) CNVSS (0V) VSS Incrementer/Decrementer(24) Program Counter PC(16) Program Bank Register PG(8) Data Bank Register DT(8) WatchdogTimer Timer TB2(16) Timer TB1(16) Timer TA1(16) ROM 48 Kbytes RAM 2048 Bytes (5V) VCC Input Buffer Register IB(16) Reset input RESET Timer TA4(16) Timer TA3(16) Timer TA2(16) Processor Status Register PS(11) Direct Page Register DPR(16) Stack Pointer S(16) Index Register Y(16) Clock output Enable output XOUT E Index Register X(16) Clock Generating Circuit Accumulator B(16) Accumulator A(16) BLOCK DIAGRAM Clock input XIN Arithmetic Logic Unit(16) Timer TA0(16) Timer TB0(16) UART 0(9) A-D Converter(10) D-A0 Converter(8) Program Address Register PA(24) 3 PR e. n. atio chang cific o spe bject t l fina su ot a its are is n m This etric li m ice: Not e para Som MI ELI Y NAR MITSUBISHI MICROCOMPUTERS M37754M6C-XXXGP M37754M6C-XXXHP SINGLE-CHIP 16-BIT CMOS MICROCOMPUTER FUNCTIONS OF M37754M6C-XXXGP Parameter Number of basic machine instructions Instruction execution time ROM Memory size RAM P0, P1, P4-P8, P10, P11 P2 Input/Output ports P3 P9 TA0, TA1, TA2, TA3, TA4 Multiple-function timers TB0, TB1, TB2 Serial I/O A-D converter D-A converter Watchdog timer Dead-time timer Interrupts Clock generating circuit Supply voltage Power dissipation Input/Output characteristic Memory expansion Operating temperature range Device structure Package Input/Output withstand voltage Output current Functions 109 100 ns (the fastest instruction at external clock 40 MHz frequency) 48 Kbytes 2048 bytes 8-bit x 9 5-bit x 1 4-bit x 1 6-bit x 1 16-bit x 5 16-bit x 3 (UART or clock synchronous serial I/O) x 2 10-bit x 1 (8 channels) 8-bit x 2 12-bit x 1 8-bit x 3 5 external types, 16 internal types (Each interrupt can be set to priority levels 0-7.) Built-in (externally connected to a ceramic resonator or quartz crystal resonator) 5 V10 % 125 mW(at external clock 40 MHz frequency) 5V 5 mA Maximum 16 Mbytes -20 to 85 C CMOS high-performance silicon gate process 100-pin plastic molded QFP 4 PR ge. ion. icat to chan ecif l sp ubject a a fin es not mits ar li is is : Th metric ice Not e para Som I LIM E Y NAR MITSUBISHI MICROCOMPUTERS M37754M6C-XXXGP M37754M6C-XXXHP SINGLE-CHIP 16-BIT CMOS MICROCOMPUTER PIN DESCRIPTION (MICROCOMPUTER MODE) Pin VCC, VSS CNVSS RESET XIN XOUT E Name Power supply CNVSS input Reset input Clock input Clock output Enable output Input/ Output Input Input Input Output Output Functions Supply 5 V10 % to VCC and 0 V to VSS. This pin controls the processor mode. Connect to VSS for single-chip mode or memory expansion mode. Connect to VCC for microprocessor mode. This is reset input pin. The microcomputer is reset when supplying "L" level to this pin. These are I/O pins of internal clock generating circuit. Connect a ceramic or quartzcrystal resonator between XIN and XOUT. When an external clock is used, the clock source should be connected to the XIN pin and the XOUT pin should be left open. This pin outputs enable signal E, which indicates access state of data bus for single-chip mode. This pin outputs RD signal for memory expansion mode or microprocessor mode. This pin determines whether the external data bus is 8-bit width or 16-bit width for memory expansion mode or microprocessor mode. The width is 16 bits when "L" signal inputs and 8 bits when "H" signal inputs. Power supply for the A-D converter and the D-A converter. Connect AVCC to VCC and AVSS to VSS externally. This is reference voltage input pin for the A-D converter and the D-A converter. In single-chip mode, port P0 is an 8-bit I/O port. This port has an I/O direction register and each pin can be programmed for input or output. These ports are in the input mode when reset. Address (A0-A7) is output in memory expansion mode or microprocessor mode. In single-chip mode, these pins have the same functions as port P0. Address (A8- A15) is output in memory expansion mode or microprocessor mode. In single-chip mode, these pins have the same functions as port P0. Address (A16- A19, A23) is output in memory expansion mode or microprocessor mode. In single-chip mode, these pins have the same functions as port P0. In memory expansion mode or microprocessor mode, WR, BHE , ALE, and HLDA signals are output. In single-chip mode, these pins have the same functions as port P0. In memory expansion mode or microprocessor mode, P40, P41, and P42 become HOLD and RDY input pins, and clock 1 output pin respectively. Functions of other pins are the same as in single-chip mode. In memory expansion mode, P42 can be programmed as I/O port. In addition to having the same functions as port P0 in single-chip mode, these pins also function as I/O pins for timer A0, timer A1, timer A2, timer A3, output pins for motor drive waveform, and input pins for key input interrupt. In addition to having the same functions as port P0 in single-chip mode, these pins also function as I/O pins for timer A4, input pins for external interrupt input INT0, INT1, and INT2, and input pins for timer B0, timer B1, and timer B2. In addition to having the same functions as port P0 in single-chip mode, these pins also function as input pins for A-D converter. In addition to having the same functions as port P0 in single-chip mode, these pins also function as I/O pins for UART0, UART1, output pins for D-A converter, and input pin for INT4. In addition to having the same functions as port P0 in single-chip mode, these pins also function as input pin for INT3, output pins for motor drive waveform. In memory expansion mode and microprocessor mode, these pins can be programmed as address (A20-A22) or output pins for CS0-CS4. BYTE (Note) AVCC, AVSS VREF P00-P07 Bus width select input Input Analog supply input Reference voltage input I/O port P0 Input I/O P10-P17 P20-P23, P27 P30-P33 I/O port P1 I/O port P2 I/O port P3 I/O I/O I/O P40-P47 I/O port P4 I/O P50-P57 I/O port P5 I/O P60-P67 I/O port P6 I/O P70-P77 P80-P87 I/O port P7 I/O port P8 I/O I/O P90-P95 I/O port P9 I/O Note: It is impossible to change the input level of the BYTE pin in each bus cycle. In other words, bus width cannot be switched dynamically. Fix the input level of the BYTE pin to "H" or "L" according to the bus width used. 5 PR e. n. atio chang cific o spe bject t l fina su ot a its are is n m This etric li m ice: Not e para Som MI ELI Y NAR MITSUBISHI MICROCOMPUTERS M37754M6C-XXXGP M37754M6C-XXXHP SINGLE-CHIP 16-BIT CMOS MICROCOMPUTER Pin Name P100 - P107 I/O port P10 Input/ Output I/O Functions In single-chip mode, these pins have the same functions as port P0. In memory expansion mode or microprocessor mode, these pins become data I/O pins and operate as follows: (1) When using 16-bit width as external data bus width: Accessing external memory * * (2) When using 8-bit width as external data bus width: Accessing external memory * * P110 - P117 I/O port P11 I/O In single-chip mode, these pins have the same functions as port P0. In memory expansion mode or microprocessor mode, these pins operate as follows: (1) When using 16-bit width as external data bus width Accessing external memory * * 6 PR e. n. atio chang cific o spe bject t l fina su ot a its are is n m This etric li m ice: Not e para Som MI ELI Y NAR MITSUBISHI MICROCOMPUTERS M37754M6C-XXXGP M37754M6C-XXXHP SINGLE-CHIP 16-BIT CMOS MICROCOMPUTER BASIC FUNCTION BLOCKS The M37754M6C-XXXGP and M37754M6C-XXXHP has the same functions as the M37754M8C-XXXGP and M37754M8C-XXXHP except for the following : (1) The ROM size is different. (2) The function of ROM area modification is not available. Therefore, refer to the section on the M37754M8C-XXXGP . MEMORY The memory map is shown in Figure 1. The address space is 16 Mbytes from addresses 016 to FFFFFF16. The address space is divided into 64-Kbyte units called banks. The banks are numbered from 016 to FF16. Internal ROM, internal RAM, and control registers for internal peripheral devices are assigned to bank 016. The 48-Kbyte area from addresses 400016 to FFFF16 is the internal ROM. Addresses FFD216 to FFFF16 are the RESET and interrupt vector addresses and contain the interrupt vectors. Refer to the section on interrupts for details. The 2048-byte area from addresses 8016 to 87F16 contains the internal RAM. In addition to storing data, the RAM is used as stack during a subroutine call, or interrupts. Assigned to addresses 016 to 7F16 are peripheral devices such as I/O ports, A-D converter, D-A converter, UART, timer, and interrupt control registers. A 256-byte direct page area can be allocated anywhere in bank 016 using the direct page register DPR. In direct page addressing mode, the memory in the direct page area can be accessed with two words thus reducing program steps. Bank 016 Bank 116 FE000016 Bank FE16 FEFFFF16 FF000016 Bank FF16 FFFFFF16 * * * * * * * * * * * * * 00000016 00000016 00007F16 00008016 Internal RAM 2048 bytes 00000016 Peripherai devices control registers see Fig. 2 for further information 00007F16 00FFFF16 01000016 00087F16 Interrupt vector table 00FFD216 INT4 INT3 A-D 01FFFF16 00400016 UART1 transmit UART1 receive UART0 transmit UART0 receive Timer B2 Timer B1 Timer B0 Timer A4 Timer A3 Internal ROM 48 Kbytes Timer A2 Timer A1 Timer A0 INT2 INT1 INT0 Watchdog timer DBC BRK instruction Zero divide 00FFFE16 RESET 00FFFF16 Note: Internal ROM area can be modified. (Refer to the section on ROM area modification function.) Fig. 1 Memory map 7 PR e. n. atio chang cific o spe bject t l fina su ot a its are is n m This etric li m ice: Not e para Som IN LIM E A RY MITSUBISHI MICROCOMPUTERS M37754M6C-XXXGP M37754M6C-XXXHP SINGLE-CHIP 16-BIT CMOS MICROCOMPUTER Address (Hexadecimal notation) 000000 000001 Port P0 register 000002 Port P1 register 000003 000004 Port P0 direction register 000005 Port P1 direction register 000006 Port P2 register 000007 Port P3 register 000008 Port P2 direction register 000009 Port P3 direction register Port P4 register 00000A Port P5 register 00000B Port P4 direction register 00000C Port P5 direction register 00000D Port P6 register 00000E Port P7 register 00000F Port P6 direction register 000010 Port P7 direction register 000011 Port P8 register 000012 Port P9 register 000013 Port P8 direction register 000014 Port P9 direction register 000015 Port P10 register 000016 Port P11 register 000017 000018 Port P10 direction register Port P11 direction register 000019 00001A Waveform output mode register 00001B Dead-time timer 00001C Pulse output data register 1 Pulse output data register 0 00001D A-D control register 0 00001E A-D control register 1 00001F 000020 A-D register 0 000021 000022 A-D register 1 000023 000024 A-D register 2 000025 000026 A-D register 3 000027 000028 A-D register 4 000029 00002A A-D register 5 00002B 00002C A-D register 6 00002D 00002E A-D register 7 00002F UART0 transmit/receive mode register 000030 UART0 baud rate register 000031 000032 UART0 transmit buffer register 000033 UART0 transmit/receive control register 0 000034 UART0 transmit/receive control register 1 000035 000036 UART0 receive buffer register 000037 UART1 transmit/receive mode register 000038 UART1 baud rate register 000039 00003A UART1 transmit buffer register 00003B UART1 transmit/receive control register 0 00003C UART1 transmit/receive control register 1 00003D 00003E UART1 receive buffer register 00003F Address (Hexadecimal notation) Count start register 000040 000041 One-shot start register 000042 000043 Up-down register 000044 000045 Timer A write register 000046 Timer A0 register 000047 000048 Timer A1 register 000049 00004A Timer A2 register 00004B 00004C Timer A3 register 00004D 00004E Timer A4 register 00004F 000050 Timer B0 register 000051 000052 Timer B1 register 000053 000054 Timer B2 register 000055 Timer A0 mode register 000056 Timer A1 mode register 000057 Timer A2 mode register 000058 Timer A3 mode register 000059 Timer A4 mode register 00005A Timer B0 mode register 00005B Timer B1 mode register 00005C Timer B2 mode register 00005D Processor mode register 0 00005E Processor mode register 1 00005F Watchdog timer register 000060 Watchdog timer frequency select register 000061 Chip select control register 000062 Chip select area register 000063 Comparator function select register 000064 Reserved area (Note) 000065 Comparator result register 000066 Reserved area (Note) 000067 D-A register 0 000068 000069 D-A register 1 00006A 00006B Particular function select register 0 00006C Particular function select register 1 00006D INT4 interrupt control register 00006E INT3 interrupt control register 00006F A-D interrupt control register 000070 UART0 trasmit interrupt control register 000071 UART0 receive interrupt control register 000072 UART1 trasmit interrupt control register 000073 UART1 receive interrupt control register 000074 Timer A0 interrupt control register 000075 Timer A1 interrupt control register 000076 Timer A2 interrupt control register 000077 Timer A3 interrupt control register 000078 Timer A4 interrupt control register 000079 Timer B0 interrupt control register 00007A Timer B1 interrupt control register 00007B Timer B2 interrupt control register 00007C INT0 interrupt control register 00007D INT1 interrupt control register 00007E INT2 interrupt control register 00007F Note: Do not write to this address. Fig. 2 Location of peripheral devices and interrupt control registers 8 PR ge. ion. icat to chan ecif l sp ubject a a fin es not mits ar li is is : Th metric ice Not e para Som I LIM E Y NAR MITSUBISHI MICROCOMPUTERS M37754M6C-XXXGP M37754M6C-XXXHP SINGLE-CHIP 16-BIT CMOS MICROCOMPUTER ELECTRICAL CHARACTERISTICS The M37754M6C-XXXGP and M37754M6C-XXXHP have the same function as the M37754M8C-XXXGP and M37754M8C-XXXHP in the following : (1) ABSOLUTE MAXIMUM RATINGS (2) RECOMMENDED OPERATING CONDITIONS (3) ELECTRICAL CHARACTERISTICS (4) PERIPHERAL DEVICE INPUT/OUTPUT TIMING (5) TIMING REQUIREMENTS (6) SWITCHING CHARACTERISTICS Therefore, refer to the correponding section on the M37754M8CXXXGP. ADDRESSING MODES AND INSTRUCTION SET The M37754M6C-XXXGP and M37754M6C-XXXHP have 29 powerful addressing modes; 1 addressing mode is added to the basis of the 7700 series. Refer to the "7751 Series Software Manual" for the details. INSTRUCTION SET The M37754M6C-XXXGP and M37754M6C-XXXHP have the extended instruction set; 6 instructions are added to the instruction set of 7700 series. The object code of this extended instruction set is upwards compatible to that of 7700 series instruction set. Refer to the "7751 Series Software Manual" for the details. SHORTENING NUMBER OF INSTRUCTION EXECUTION CYCLES Shortening number of instruction execution cycles is realized in the M37754M6C-XXXGP and M37754M6C-XXXHP owing to modifications of the instruction execution algorithm and the CPU circuit, and others. Refer to the "7751 Series Software Manual" about the number of instruction execution cycles. DATA REQUIRED FOR MASK ROM ORDERING Please send the following data for mask orders: <M37754M6C-XXXGP> (1) M37754M6C-XXXGP mask ROM order confirmation form (2) 100P6S mark specification form (3) ROM data (EPROM 3 sets) 9 GZZ-SH00-84B<85A0> Mask ROM number 7700 FAMILY MASK ROM ORDER CONFIRMATION FORM SINGLE-CHIP 16-BIT MICROCOMPUTER M37754M6C-XXXGP M37754M6C-XXXHP MITSUBISHI ELECTRIC Date: Receipt Section head Supervisor signature signature Note : Please fill in all items marked Issuance signatures Company name Date issued 1. Confirmation Specify the name of the product being ordered. Three sets of EPROMs are required for each pattern (Check @ in the appropriate box). If at least two of the three sets of EPROMs submitted contain the identical data, we will produce masks based on this data. We shall assume the responsibility for errors only if the mask ROM data on the products we produce differ from this data. Thus, the customer must be especially careful in verifying the data contained in the EPROMs submitted. Checksum code for entire EPROM areas EPROM Type : 27512 0000 0010 27101 00000 00010 (1) Set "FF16" in the shaded area. (2) Address 016 to 1016 are the area for storing the data on model designation and options.This area must be written with the data shown below. Details for option data are given next in the section describing the STP instruction option. Address and data are written in hexadecimal notation. 48K 1FFFF 4D 33 37 37 35 34 4D 36 Address 0 1 2 3 4 5 6 7 Address Address Option data 10 8 9 A B C D E F (hexadecimal notation) Date: TEL ( Responsible officer Supervisor Customer ) 4000 DATA FFFF 48K DATA 14000 43 2D FF FF FF FF FF FF 2. STP instruction option One of the following sets of data should be written to the option data address (1016) of the EPROM you have ordered. Check @ in the appropriate box. Address 1016 3. Mark specification Mark specification must be submitted using the correct form for the type of package being ordered fill out the appropriate 100P6S Mark Specification Form (for M37754M6C-XXXGP), 100P6Q Mark Specification Form (for M37754M6C-XXXHP) and attach to the Mask ROM Order Confirmation Form. 4. Comments STP instruction enable STP instruction disable 0116 0016 Address 1016 100P6S (100-PIN QFP) MARK SPECIFICATION FORM Mitsubishi IC catalog name Please choose one of the marking types below (A, B, C), and enter the Mitsubishi catalog name and the special mark (if needed). A. Standard Mitsubishi Mark 80 81 51 50 Mitsubishi IC catalog name Mitsubishi lot number (6-digit or 7-digit) 100 1 30 31 B. Customer's Parts Number + Mitsubishi catalog name 80 81 51 50 100 1 30 31 Customer's Parts Number Note : The fonts and size of characters are standard Mitsubishi type. Mitsubishi IC catalog name Note1 : The mark field should be written right aligned. 2 : The fonts and size of characters are standard Mitsubishi type. 3 : Customer's Parts Number can be up to 14 characters : Only 0 ~ 9, A ~ Z, +, -, /, (, ), &, (c), (periods), (commas) are usable. . , C. Special Mark Required 80 81 51 50 100 1 30 31 Note1 : If the Special Mark is to be Printed, indicate the desired layout of the mark in the left figure. The layout will be duplicated as close as possible. Mitsubishi lot number (6-digit or 7-digit) and Mask ROM number (3-digit) are always marked. 2 : If the customer's trade mark logo must be used in the Special Mark, check the box below. Please submit a clean original of the logo. For the new special character fonts a clean font original (ideally logo drawing) must be submitted. Special logo required Keep safety first in your circuit designs! * Mitsubishi Electric Corporation puts the maximum effort into making semiconductor products better and more reliable, but there is always the possibility that trouble may occur with them. Trouble with semiconductors may lead to personal injury, fire or property damage. Remember to give due consideration to safety when making your circuit designs, with appropriate measures such as (i) placement of substitutive, auxiliary circuits, (ii) use of non-flammable material or (iii) prevention against any malfunction or mishap. Notes regarding these materials * * * These materials are intended as a reference to assist our customers in the selection of the Mitsubishi semiconductor product best suited to the customer's application; they do not convey any license under any intellectual property rights, or any other rights, belonging to Mitsubishi Electric Corporation or a third party. Mitsubishi Electric Corporation assumes no responsibility for any damage, or infringement of any third-party's rights, originating in the use of any product data, diagrams, charts or circuit application examples contained in these materials. All information contained in these materials, including product data, diagrams and charts, represent information on products at the time of publication of these materials, and are subject to change by Mitsubishi Electric Corporation without notice due to product improvements or other reasons. It is therefore recommended that customers contact Mitsubishi Electric Corporation or an authorized Mitsubishi Semiconductor product distributor for the latest product information before purchasing a product listed herein. Mitsubishi Electric Corporation semiconductors are not designed or manufactured for use in a device or system that is used under circumstances in which human life is potentially at stake. Please contact Mitsubishi Electric Corporation or an authorized Mitsubishi Semiconductor product distributor when considering the use of a product contained herein for any specific purposes, such as apparatus or systems for transportation, vehicular, medical, aerospace, nuclear, or undersea repeater use. The prior written approval of Mitsubishi Electric Corporation is necessary to reprint or reproduce in whole or in part these materials. If these products or technologies are subject to the Japanese export control restrictions, they must be exported under a license from the Japanese government and cannot be imported into a country other than the approved destination. Any diversion or reexport contrary to the export control laws and regulations of Japan and/or the country of destination is prohibited. Please contact Mitsubishi Electric Corporation or an authorized Mitsubishi Semiconductor product distributor for further details on these materials or the products contained therein. * * * * (c) 1999 MITSUBISHI ELECTRIC CORP. New publication, effective Apr. 1999. Specifications subject to change without notice. REVISION DESCRIPTION LIST Rev. No. 1.0 First Edition M37754M6C-XXXGP/HP DATA SHEET Revision Description Rev. date 971114 980528 1.01 The following are added: *MASK ROM ORDER CONFIRMATION FORM *MARK SPECIFICATION FORM 2.00 (1) For the "timer A write flag (address 4516)", it's name is corrected: * New register name: timer A write register * Related page: page 8 990428 (1/1) |
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