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| Ordering number : ENN*6830 CMOS IC LC680100A 32-Bit RISC Microcontroller Preliminary Overview The LC680100A is a 32 bit microcontroller developed exclusively by Sanyo, based on a 32 bit RISC CPU and incorporating on a single chip a high speed multiplier, 2kB of cache RAM, 2kB data RAM, DRAM control unit, external memory control unit and peripheral It is an ideal control device for digital cameras, color printers and hand held data terminals. Features (1) CPU core :32 bit RISC (Speed: 15MHz, Instruction cycle time: 67ns) (2) High Speed Multiplier :16bit x 16bit (in 1 instruction cycle) (3) Instruction cache RAM :2kB (512x32bit) (4) Data RAM :2kB (512x32bit) (5) DRAM Control Unit (6) External memory bus control unit (7) I/O port :One 16 bit I/O port, one 8 bit I/O port (8) UART :Two full duplex asynchronous channels (one channel has 16bit FIFO) (9) Serial I/O :One three-wire synchronous clock, 8 bit (10) Timer :4 channels (TM0 = 16bit + 16bit) (TM1, TM2, TM3 = 8bit + 8bit) (11) PWM Output :Three 8 bit resolution outputs (Common with TM1, TM2, TM3) (12) Interrupt controller :13 source events (5 internal, 8 external), 5 vectored (13) OSC circuit :Two types: main and RC. VCO/PLL is built-in, frequency multiplication possible. (14) Standby :Standby (HOLD) and sleep (HALT) modes available (15) VDD :3.3V typ. Package and Pins SQFP100, 100 pins Development tools A C compiler, assembler and emulator are available to be run on a PC. Ver.1.2 D0798 N3000 RM (IM) IT No.6830-1/16 LC680100A System Block Diagram Instruction Cache Main OSC (2k bytes) Multiplier Circuit Instruction Cache Control RC OSC System Clock, Standby Control 32bit RISC CORE Data RAM Mode Control Reset Control (2k bytes) Bus Control Coprocessor (Multiplier) DRAM Control Interrupt Control Interrupt enable control TM0H TM0L TM1H TM2H TM3H SIO0 UART0 UART1 Special Function Register SFR Bus Control SIO0 Timer 0 UART0 Timer 1 UART1 Timer 2 Port 0 Timer 3 Port 1 Figure 1 LC680100A System Block Diagram No.6830-2/16 LC680100A Terminal Assignment Diagram (SQFP100, 0.5mm pitch) A27/CS3 A26/CS4 A25/CS5 A24 A23 A22 A19 A18 A17 A16 A15 A14 A12 A11 VDD VSS A21 A20 A13 A10 D1 D0 A9 A8 D2 D3 D4 D5 D6 D7 VDD D8 D9 D10 D11 D12 D13 D14 D15 VSS CS0 CS1 CS2 CS6 RD WRU/UBS WRL/WR WAIT BREQ 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 50 76 77 49 78 48 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 12 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 A7 A6 A5 A4 A3 A2 A1 A0/LBS VSS P17/MCLK/HOLDO P16/IRQOT P15/RFREQ P14/DMXS P13/CASL P12/CASU P11/RAS P10/BGNT VDD NMI P0F P0E P0D/RXD1 P0C/TXD1 P0B/PWM2 P0A/INT3 P09/INT2 LC680100A 345 P04/SCK P05/PWM0 P06/PWM1 RESET MODE CKOT P01/RXD0 P02/SDO P00/TXD0 CMP VDD VDD CK1 HOLDI VSS PHIOT TEST VDD VSS CKIN CK2 P07/T0IN/INT0 VSS Package Dimension (unit : mm) 3181B P08/INT1 P03/SDI SANYO : SQFP-100 No.6830-3/16 LC680100A Terminal Functions Pin Number 1,6,15,34,55 VDD ,82 4,9,24,43,73 VSS ,91 2 3 5 7 8 10 11 12 13 14 16 17 18 19 20 21 22 23 CK1 CK2 CMP CKOT CKIN PHIOT HOLDI RESET Note: PU = pull-up I/O I O I/O O I O I I I I I/O I/O I/O I/O I/O I/O I/O I/O Function Description Power supply +ve Power supply -ve Input to main oscillator Output from main oscillator Phase comparator filter pin (multiplier circuit). Schmitt Input CMOS output Schmitt Input*Tristate output Schmitt Input CMOS output Schmitt Input Schmitt Input Schmitt Input Schmitt Input *Used as input: Schmitt Input; presence of PU resistor software selectable. *Used as Output: CMOS/N-ch OD mode software selectable. Pin Format Pin Name CK1 or half frequency clock output from multiplier CMOS output External clock input System clock output HOLD request input Reset terminal Bus mode setting at reset Test input (Normally connected to VSS) PORT0 bit0 I/O. Also UART0 send PORT0 bit1 I/O. Also UART0 receive PORT0 bit2 I/O. Also SIO0 data out PORT0 bit3 I/O. Also SIO0 data in PORT0 bit4 I/O. Also SIO0 clock PORT0 bit5 I/O. Also PWM0 output PORT0 bit6 I/O. Also PWM1 output PORT0 bit7 I/O. Timer0 event input INT0 input PORT0 bit8 I/O. INT1 input PORT0 bit9 I/O. INT2 input PORT0 bit10 I/O. INT3 input PORT0 bit11 I/O. PWM2 output PORT0 bit12 I/O. UART1 send PORT0 bit13 I/O. UART1 receive PORT0 bit14 I/O. PORT0 bit15 I/O. MODE TEST P00/TXD0 P01/RXD0 P02/SDO P03/SDI P04/SCK P05/PWM0 P06/PWM1 P07/T0IN/INT0 25 26 27 28 29 30 31 32 P08/INT1 P09/INT2 P0A/INT3 P0B/PWM2 P0C/TXD1 P0D/RXD1 P0E P0F I/O I/O I/O I/O I/O I/O I/O I/O No.6830-4/16 LC680100A Pin Number 33 35 36 37 38 39 40 41 42 NMI Pin Name I/O I I/O I/O I/O I/O I/O I/O I/O I/O NMI interrupt Function Description Pin Format Schmitt Input Schmitt Input*Tristate output P10/BGNT P11/RAS P12/CASU P13/CASL P14/DMXS P15/RFREQ P16/IRQOT P17/MCLK/HOLD0 PORT1 bit0 input. Also bus grant output. PORT1 bit1 input. Also DRAM control RAS signal out. PORT1 bit2 input. Also DRAM control CASU signal out. PORT1 bit3 input. Also DRAM control CASL signal out. PORT1 bit4 input. Also DRAM control DMXS signal out. PORT1 bit5 input. Also DRAM control RFREQ I/O. PORT1 bit6 input. Also IRQOT output. PORT1 bit7 input. MCLK output, HOLD state output Bus Address bit0 or Lower byte strobe signal. Bus Address bit1 to 24. Bus Address bit25 Bus Address bit26 Bus Address bit27 Bus data bit0 to 15 CS0 CS1 CS2 CS6 Schmitt Input*PU Output Schmitt Input*Tristate output 44 45 to 54, 56 to 69 70 71 72 74 to 81, 83 to 90 92 93 94 95 96 97 98 99 100 A0/LBS A1to A24 A25/CS5 A26/CS4 A27/CS3 D0 to D15 CS0 CS1 CS2 CS6 RD WRU/UBS WRL/WR WAIT BREQ I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I/O I Schmitt Input*Tristate output or or or CS5. CS4 CS3. Schmitt Input*Tristate output Schmitt Input*Tristate output Bus read signal. Upper byte write signal Upper byte write signal Bus cycle wait Bus request. or or Upper byte strobe. Write. Schmitt Input*Tristate output Schmitt Input*PU output Schmitt Input No.6830-5/16 LC680100A 1. Absolute Maximum Ratings at Ta = 25C, VSS = 0V Parameter Symbol VDD Pins Conditions Ratings Unit Supply voltage Input voltage Output voltage Input/Output voltage High level peak output current High level total output current Low level peak output current Low level total output current Maximum power consumption Operating temperature range Storage temperature range VDDmax VI(1) VO(1) VIO(1) IOPH(1) IOAH(1) IOAH(2) IOPL(1) IOAL(1) IOAL(2) Pdmax Topg Tstg Note1 Pins for each input only Pins for each output only Pins for both input and output Each output pin P00 to P08 P09 to P0F Each output pin P00 to P07 P08 to P0F SQFP100 Note2 Current at each pin Total of 9 pins Total of 7 pins Current at each pin Total of 8 pins Total of 8 pins Ta = -20 to 70C -0.3 to +4.6 -0.3 to VDD+0.3 -0.3 to VDD+0.3 -0.3 to VDD+0.3 -5 -80 -80 20 80 80 440 -20 to +70 -55 to +125 V V V V mA mA mA mA mA mA mW C C Note1:All VDD terminals (pin1, 6, 15, 34, 55, 82) should be connected externally. All VSS terminals (pin4, 9, 24, 43, 73, 91) should be connected externally. Note2:Reflow method is recommended when soldering the SQFP package. No.6830-6/16 LC680100A 2. Recommended Operating Range at Ta = -20 to 70C, VSS = 0V Parameter Operating supply voltage range Supply voltage (Memory hold) High level input voltage Low level input voltage Symbol Pins Conditions Min. Ratings Typ. 3.3 Max. 3.6 3.6 VDD VDD 0.3VDD 0.3VDD 3333 5000 15M 15M Unit VDD (1) VHD VIH(1) VIH(2) VIL(1) VIL(2) tCYC(1) VDD VDD Input pins except CK1 CK1 Input pins except CK1 CK1 CKIN CK1 CKIN CK1 CKIN CK1 300K to 15MHz 400K to 15MHz (VCO is not used.) Figure 1 Figure 1 Figure 1 Figure 1 Keep RAM and Register data in Standby mode. 3.0 2.5 0.7VDD 0.7VDD VSS VSS 66 132 300k 400k 28 V V V V Operation cycle time tCYC(2) fEXCKIN fEXCK1 tCKINL tCKINH tCK1L tCK1H tEXR tEXF ns External system clock frequency External clock pulse width Hz ns 28 External clock rising and falling time Operation frequency range CKIN, CK1 Figure 1 5 ns fCK1 CK1, CK2 Figure 2, Table 1 400k 8M Hz No.6830-7/16 LC680100A 3. Electrical Characteristics at Ta = -20 to 70C, VSS = 0V, VDD = 3.0 to 3.6V Parameter Symbol Pins Pins for each input only Pins for both input and output Pins for each input only P15/RFREQ,WAIT Input/output commonly terminals except written above Port0 with PU option, P15/RFREQ Input/output commonly terminals except written above, CKOT, PHIOT Pins for each output only Pins for both input and output Port0 with PU option, P15/RFREQ Each input only, I/O terminal NMI Conditions Min. Ratings Typ. Max. 5 Unit High level input current IIH(1) IIH(2) IIL(1) VIN = VDD VIN = VDD Output disabled VIN = VSS VIN = VSS Output disabled VIN = VSS Output disabled IOH = -0.05mA -5 -5 A 5 Low level input current IIL(2) A IIL(3) -5 VOH(1) High level output voltage VDD-0.5 V VOH(2) IOH = -1mA VDD-0.5 Low level output voltage VOL(1) VOL(2) rPU vHIS tINTL tINTH tRESL fVCO tLOCK fRC tCF IDDRUN IDDSLP IDDSTY cP IOL = 4mA IOL = 4mA 1K 0.1 Figure 4 Figure 4 Figure 5 Figure 5, cCMP = 0.1F 300k Figure 3 CKIN=15MHz 60 50 10 10 2 4 2 4M 10 0.4 V 0.4 20K VDD Tcyc ms 16M Hz ms 1M 10 120 100 200 Hz ms mA mA A PF PU resistor Hysterisis voltage External interrupt pulse width Reset input pulse width VCO frequency VCO lock-up time RC oscillation frequency Ceramic oscillation stabilizing time Current consumption in run mode Current consumption in sleep mode Current consumption in standby mode Pin capacitance INT0 to INT3 RESET CKOT CMP,CKOT Built-in RC oscillation circuit CK1,CK2 VDD VDD VDD All pins No.6830-8/16 LC680100A 4. Serial Input/Output Characteristics at Ta = -20 to 70C, VSS = 0V, VDD = 3.0 to 3.6V, with the load in Figure 14 Parameter Input clock cycle time Input clock L pulse width Input clock H pulse width Output clock cycle time Output clock L pulse width Output clock H pulse width Input data set up time Input data hold time Output delay time Symbol tSCK tSCKL tSCKH tSCKO tSCKOL tSCKOH tsDI thDI tdDO Pins SCK input SCK input SCK input SCK output SCK output SCK output SCK, SDI SCK, SDI SCK, SDO Conditions Min. Figure 6 Figure 6 Figure 6 Figure 6 Figure 6 Figure 6 Figure 6 Figure 6 Figure 6 16 533 533 16 8 8 200 50 Ratings Typ. Max. Unit Tcyc ns ns Tcyc Tcyc Tcyc ns ns 100 130 ns No.6830-9/16 LC680100A 5. Bus Timing at Ta = -20 to 70C, VSS = 0V, VDD = 3.0 to 3.6V, with the load in Figure14 Parameter Address output delay time Address output hold time CS delay time (1) CS hold time (1) RD delay time (1) RD hold time (1) Read data set up time (1) Read data hold time (1) WR delay time (1) WR hold time (1) Write data delay time (1) Write data hold time (1) Bus request input setup time Bus request input hold time BGNT output delay time Bus release delay time WAIT set up time WAIT input hold time Symbol Pins Conditions Min. Figure 7, Figure 8 Figure 7, Figure 8 Figure 7, Figure 8 Figure 7, Figure 8 Figure 7 Figure 7 Figure 7 Figure 7 Figure 8 Figure 8 Figure 8 Figure 8 Figure 12 Figure 12 Figure 12 Figure 12 30 30 0 30 30 30 0 Ratings Typ. Max. 75 75 Unit tAAD tADA tACS tCSA tARD tRDA tsRD1 thRD1 tAWR tWRA tdWD1 thWD1 tsBRQ thBRQ tdBGT tdBOF tsWAIT thWAIT A27 to A0 A27 to A0 CSn CSn RD RD ns 45 55 45 55 ns D15 to D0 D15 to D0, WRU, WRL WRU, WRL 45 55 70 30 ns D15 to D0, WRU , WRL D15 to D0, WRU, WRL CKIN, BREQ CKIN, BREQ CKIN, BGNT CKIN, A27 to A0, RD ,WRU ,WRL 50 50 ns CKIN, WAIT CKIN, WAIT No.6830-10/16 LC680100A 6. DRAM Timing at Ta = -20 to 70C, VSS = 0V, VDD = 3.0 to 3.6V, with the load in Figure 14 Ratings Min. Address (ROW) delay time Address (COL) delay time Address (COL) hold time RAS delay time RAS hold time DMXS delay time DMXS hold time CASL*CASU delay time CASL*CASU hold time Read data set up time (2) Read data hold time (2) WRL*WRU delay time WRL*WRU hold time Write data delay time (2) Write data hold time (2) tAROW tACOL tCOLA tARAS tRASA tDMXSR tDMXSC tACAS(L/U) Parameter Symbol Pins Conditions Unit Max. 75 55 70 65 50 70 50 65 50 ns Typ. A27 to A0 A27 to A0 A27 to A0 RAS RAS Figure 9, Figure 10 Figure 9, Figure 10 Figure 9, Figure 10 Figure 9, Figure 10 Figure 9, Figure 10 Figure 9, Figure 10 Figure 9, Figure 10 Figure 9, Figure 10 Figure 9, Figure 10 Figure 9 Figure 9 Figure 10 Figure 10 Figure 10 Figure 10 0 30 DMXS DMXS CASU, CASL CASU, CASL tCAS(L/U)A tsRD2 thRD2 tAWR(L/U) tWR(L/U)A tdWD2 thWD2 D15 to D0 D15 to D0, RD WRU, WRL WRU, WRL ns 0 45 50 70 ns D15 to D0, WRU, WRL D15 to D0, WRU, WRL Table 1. Guaranteed Value for the Ceramic Oscillators Oscillator 4MHZ (External Capacitor) 4MHZ (Capacitor built-in) 8MHZ (External Capacitor) 8MHZ (Capacitor built-in) Manufacturer Murata Oscillator CSA4. OOMG CST4. OOMGW CSA8. OOMTZ CST8. OOMTW 33pF (30pF) 33pF (30pF) C1 33pF (30pF) 33pF (30pF) C2 No.6830-11/16 LC680100A Figure1 External Clock Input 1/fEXCKIN or 1/fEXCK1 External Input CK1 0.8VDD 0.2VDD CK2 CKIN External Input tCKINL or tCK1L tCKINH or tCK1H Figure2 Ceramic Oscillation Figure3 Oscillation Stabilizing Time C1 Oscillator CK1 VDD VDD lowest limit CK2 C2 CK2 Stabilized oscillation tCF Figure4 External Pulse Input Figure5 VCO Phase Compare 0.5VDD cCMP tINTL tRESL tINTH CMP VCO 1/2 VCOSW CKOT Figure6 Serial Input/Output Timing tSCK or tSCKO tSCKL OR tSCKOL SCK tSCKH OR tSCKOH 0.5VDD tsDI thDI SDI 0.5VDD SDO tdDO 0.5VDD No.6830-12/16 LC680100A Figure7 External Bus Read Timing Figure8 External Bus Write Timing No.6830-13/16 LC680100A Figure9 DRAM Read Timing Figure10 DRAM Write Timing No.6830-14/16 LC680100A Figure11 REREQ Input/Output Timing Figure12 Bus Request/Release Timing Figure13 Wait Input/Output Timing Figure14 The Load Used in Measuring the Timing No.6830-15/16 LC680100A PS No.6830-16/16 |
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