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| IC80C58 IC80C54 IC80C58 IC80C54 CMOS SINGLE CHIP 8-BIT MICROCONTROLLER FEATURES * 80C52 based architecture * 16K x 8 ROM (80C54) 32K x 8 ROM (80C58) * 256 x 8 RAM * Three 16-bit Timer/Counters * Full duplex serial channel * Boolean processor * Four 8-bit I/O ports, 32 I/O lines * Memory addressing capability - 64K ROM and 64K RAM * Program memory lock - Lock bits (2) * Power save modes: - Idle and power-down * Eight interrupt sources * Most instructions execute in 0.3 s * CMOS and TTL compatible * Maximum speed: 40 MHz @ Vcc = 5V * Packages available: - 40-pin DIP - 44-pin PLCC - 44-pin PQFP GENERAL DESCRIPTION The ICSI IC80C54 and IC80C58 are high-performance microcontroller fabricated using high-density CMOS technology. The CMOS IC80C54/58 is functionally compatible with the industry standard 80C52/32 microcontrollers. The IC80C54/58 is designed with 16K x 8 ROM (IC80C54 )and 32Kx8 ROM (IC80C58); 256 x 8 RAM; 32 programmable I/O lines; a serial I/O port for either multiprocessor communications, I/O expansion or full duplex UART; three 16-bit timer/counters; an eight-source, twopriority-level, nested interrupt structure; and an on-chip oscillator and clock circuit. The IC80C54/58 can be expanded using standard TTL compatible memory. T2/P1.0 T2EX/P1.1 P1.2 P1.3 P1.4 P1.5 P1.6 P1.7 RST RxD/P3.0 TxD/P3.1 INT0/P3.2 INT1/P3.3 T0/P3.4 T1/P3.5 WR/P3.6 RD/P3.7 XTAL2 XTAL1 GND 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 VCC P0.0/AD0 P0.1/AD1 P0.2/AD2 P0.3/AD3 P0.4/AD4 P0.5/AD5 P0.6/AD6 P0.7/AD7 EA ALE PSEN P2.7/A15 P2.6/A14 P2.5/A13 P2.4/A12 P2.3/A11 P2.2/A10 P2.1/A9 P2.0/A8 Figure 1. IC80C54/58 Pin Configuration: 40-pin DIP ICSI reserves the right to make changes to its products at any time without notice in order to improve design and supply the best possible product. We assume no responsibility for any errors which may appear in this publication. (c) Copyright 2000, Integrated Circuit Solution Inc. Integrated Circuit Solution Inc. MC003-0B 1 IC80C54 IC80C58 P1.1/T2EX P0.0/AD0 P0.1/AD1 P0.2/AD2 41 INDEX P1.5 P1.6 P1.7 RST RxD/P3.0 NC TxD/P3.1 INT0/P3.2 INT1/P3.3 T0/P3.4 T1/P3.5 7 8 9 10 11 12 13 14 15 16 17 6 5 4 3 2 1 44 43 42 P0.3/AD3 40 39 38 37 36 35 P0.4/AD4 P0.5/AD5 P0.6/AD6 P0.7/AD7 EA NC ALE PSEN P2.7/A15 P2.6/A14 P2.5/A13 34 33 32 31 30 29 28 P1.0/T2 P1.4 P1.3 P1.2 TOP VIEW 18 19 20 21 22 23 VCC 24 NC 25 26 27 A8/P2.0 WR/P3.6 A9/P2.1 A10/P2.2 A11/P2.3 Figure 2. IC80C54/58 Pin Configuration: 44-pin PLCC 2 A12/P2.4 Integrated Circuit Solution Inc. MC003-0B XTAL2 XTAL1 RD/P3.7 GND NC IC80C54 IC80C58 P1.1/T2EX P0.0/AD0 P0.1/AD1 P0.2/AD2 35 44 P1.5 P1.6 P1.7 RST RxD/P3.0 NC TxD/P3.1 INT0/P3.2 INT1/P3.3 T0/P3.4 T1/P3.5 1 2 3 4 5 6 7 8 9 10 11 12 43 42 41 40 39 38 37 36 P0.3/AD3 34 33 32 31 30 29 28 27 26 25 24 23 P0.4/AD4 P0.5/AD5 P0.6/AD6 P0.7/AD7 EA NC ALE PSEN P2.7/A15 P2.6/A14 P2.5/A13 22 P1.0/T2 P1.4 P1.3 P1.2 13 14 15 16 17 VCC 18 NC 19 20 21 WR/P3.6 A8/P2.0 A9/P2.1 A10/P2.2 A11/P2.3 Figure 3. IC80C54/58 Pin Configuration: 44-pin PQFP A12/P2.4 XTAL2 XTAL1 GND RD/P3.7 NC Integrated Circuit Solution Inc. MC003-0B 3 IC80C54 IC80C58 P2.0-P2.7 P0.0-P0.7 VCC P2 DRIVERS P0 DRIVERS GND ADDRESS DECODER & 256 BYTES RAM ADDRESS DECODER & 16/32K ROM 2 LOCK BITS RAM ADDR REGISTER P2 LATCH P0 LATCH B REGISTER STACK POINT ACC PROGRAM ADDRESS REGISTER PCON SCON T2CON TH0 TL1 TH2 RCAP2L SBUF TMOD TCON TL0 TH1 TL2 RCAP2H IE IP TMP2 TMP1 PROGRAM COUNTER INTERRUPT SERIAL PORT AND TIMER BLOCK ALU PC INCREMENTER PSW BUFFER PSEN ALE RST EA PD TIMING AND CONTROL INSTRUCTION REGISTER DPTR P3 LATCH P1 LATCH OSCILLATOR XTAL1 XTAL2 P3 DRIVERS P1 DRIVERS P3.0-P3.7 P1.0-P1.7 Figure 4. IC80C54/58 Block Diagram 4 Integrated Circuit Solution Inc. MC003-0B IC80C54 IC80C58 Table 1. Detailed Pin Description Symbol ALE PDIP 30 PLCC 33 PQFP 27 I/O I/O Name and Function Address Latch Enable: Output pulse for latching the low byte of the address during an access to the external memory. In normal operation, ALE is emitted at a constant rate of 1/6 the oscillator frequency, and can be used for external timing or clocking. Note that one ALE pulse is skipped during each access to external data memory. External Access enable: EA must be externally held low to enable the device to fetch code from external program memory locations 0000H to FFFFH. If EA is held high, the device executes from internal program memory unless the program counter contains an address greater than internal ROM seze. Port 0: Port 0 is an 8-bit open-drain, bidirectional I/O port. Port 0 pins that have 1s written to them float and can be used as highimpedance inputs. Port 0 is also the multiplexed low-order address and data bus during accesses to external program and data memory. In this application, it uses strong internal pullups when emitting 1s. Port 1: Port 1 is an 8-bit bidirectional I/O port with internal pullups. Port 1 pins that have 1s written to them are pulled high by the internal pullups and can be used as inputs. As inputs, Port 1 pins that are externally pulled low will source current because of the internal pullups. (See DC Characteristics: IIL). The Port 1 output buffers can sink/source four TTL inputs. Port 1 also receives the low-order address byte during verification. 1 2 P2.0-P2.7 21-28 2 3 24-31 40 41 18-25 I I I/O T2(P1.0): Timer/Counter 2 external count input. T2EX(P1.1): Timer/Counter 2 trigger input. Port 2: Port 2 is an 8-bit bidirectional I/O port with internal pullups. Port 2 pins that have 1s written to them are pulled high by the internal pullups and can be used as inputs. As inputs, Port 2 pins that are externally pulled low will source current because of the internal pullups. (See DC Characteristics: IIL). Port 2 emits the high order address byte during fetches from external program memory and during accesses to external data memory that used 16-bit addresses (MOVX @ DPTR). In this application, Port 2 uses strong internal pullups when emitting 1s. During accesses to external data memory that use 8-bit addresses (MOVX @ Ri [i = 0, 1]), Port 2 emits the contents of the P2 Special Function Register. Port 2 also receives the high-order bits and some control signals during verification. EA 31 35 29 I P0.0-P0.7 39-32 43-36 37-30 I/O P1.0-P1.7 1-8 2-9 40-44 1-3 I/O Integrated Circuit Solution Inc. MC003-0B 5 IC80C54 IC80C58 Table 1. Detailed Pin Description (continued) Symbol P3.0-P3.7 PDIP 10-17 PLCC 11, 13-19 PQFP 5, 7-13 I/O I/O Name and Function Port 3: Port 3 is an 8-bit bidirectional I/O port with internal pullups. Port 3 pins that have 1s written to them are pulled high by the internal pullups and can be used as inputs. As inputs, Port 3 pins that are externally pulled low will source current because of the internal pullups. (See DC Characteristics: IIL). Port 3 also serves the special features of the IC80C54/58, as listed below: 10 11 12 13 14 15 16 17 PSEN 29 11 13 14 15 16 17 18 19 32 5 7 8 9 10 11 12 13 26 I O I I I I O O O RxD (P3.0): Serial input port. TxD (P3.1): Serial output port. INT0 (P3.2): External interrupt 0. INT1 (P3.3): External interrupt 1. T0 (P3.4): Timer 0 external input. T1 (P3.5): Timer 1 external input. WR (P3.6): External data memory write strobe. RD (P3.7): External data memory read strobe. Program Store Enable: The read strobe to external program memory. When the device is executing code from the external program memory, PSEN is activated twice each machine cycle except that two PSEN activations are skipped during each access to external data memory. PSEN is not activated during fetches from internal program memory. Reset: A high on this pin for two machine cycles while the oscillator is running, resets the device. An internal MOS resistor to GND permits a power-on reset using only an external capacitor connected to Vcc. Crystal 1: Input to the inverting oscillator amplifier and input to the internal clock generator circuits. Crystal 2: Output from the inverting oscillator amplifier. Ground: 0V reference. Power Supply: This is the power supply voltage for operation. RST 9 10 4 I XTAL 1 XTAL 2 GND Vcc 19 18 20 40 21 20 22 44 15 14 16 38 I O I I OPERATING DESCRIPTION The detail description of the IC80C54/58 included in this description are: * Memory Map and Registers * The Timer/Counters * The Serial Interface * The Interrupt System * Information * Another information The detail information desription of the IC80C54/58 refer to IC80C52/32 date sheet 6 Integrated Circuit Solution Inc. MC003-0B IC80C54 IC80C58 OTHER INFORMATION Reset The reset input is the RST pin, which is the input to a Schmitt Trigger. A reset is accomplished by holding the RST pin high for at least two machine cycles (24 oscillator periods), while the oscillator is running. The CPU responds by generating an internal reset, with the timing shown in Figure 7. The external reset signal is asynchronous to the internal clock. The RST pin is sampled during State 5 Phase 2 of every machine cycle. The port pins will maintain their current activities for 19 oscillator periods after a logic 1 has been sampled at the RST pin; that is, for 19 to 31 oscillator periods after the external reset signal has been applied to the RST pin. The internal reset algorithm writes 0s to all the SFRs except the port latches, the Stack Pointer, and SBUF. The port latches are initialized to FFH, the Stack Pointer to 07H, and SBUF is indeterminate. Table 9 lists the SFRs and their reset values. Then internal RAM is not affected by reset. On power-up the RAM content is indeterminate. Table 2. Reset Values of the SFR's SFR Name PC ACC B PSW SP DPTR P0-P3 IP IE TMOD TCON T2CON TH0 TL0 TH1 TL1 TH2 TL2 RCAP2H RCAP2L SCON SBUF PCON Reset Value 0000H 00H 00H 00H 07H 0000H FFH XX000000B 0X000000B 00H 00H 00H 00H 00H 00H 00H 00H 00H 00H 00H 00H Indeterminate 0XXX0000B Integrated Circuit Solution Inc. MC003-0B 7 IC80C54 IC80C58 Power-on Reset An automatic reset can be obtained when VCC goes through a 10 F capacitor and GND through an 8.2K resistor, providing the Vcc rise time does not exceed 1 msec and the oscillator start-up time does not exceed 10 msec. This Power-on reset circuit is shown if Figure 21. The CMOS devices do not require the 8.2K pulldown resistor, although its presence does no harm. When power is turned on, the circuit holds the RST pin high for an amount of time that depends on the value of the capacitor and the rate at which it charges. To ensure a good reset, the RST pin must be high long enough to allow the oscillator time to start-up (normally a few msec) plus two machine cycles. Note that the port pins will be in a random state until the oscillator has start and the internal reset algorithm has written 1s to them. With this circuit, reducing VCC quickly to 0 causes the RST pin voltage to momentarily fall below 0V. However, this voltage is internally limited and will not harm the device. Figure 6. Power-On Reset Circuit Vcc 10 F + Vcc IC80C54/58 RST 8.2K GND 12 OSC. PERIODS S5 S6 S1 S2 S3 S4 S5 S6 S1 S2 S3 S4 S5 S6 S1 S2 S3 S4 RST INTERNAL RESET SIGNAL SAMPLE RST SAMPLE RST ALE PSEN P0 INST ADDR INST ADDR INST ADDR INST ADDR INST ADDR 11 OSC. PERIODS 19 OSC. PERIODS Figure 7. Reset Timing 8 Integrated Circuit Solution Inc. MC003-0B IC80C54 IC80C58 Power-Saving Modes of Operation The IC80C54/58 has two power-reducing modes. Idle and Power-down. The input through which backup power is supplied during these operations is Vcc. Figure 23 shows the internal circuitry which implements these features. In the Idle mode (IDL = 1), the oscillator continues to run and the Interrupt, Serial Port, and Timer blocks continue to be clocked, but the clock signal is gated off to the CPU. In Power-down (PD = 1), the oscillator is frozen. The Idle and Power-down modes are activated by setting bits in Special Function Register PCON. XTAL 1 OSC XTAL 2 INTERRUPT, SERIAL PORT, TIMER BLOCKS CPU CLOCK GEN PD IDL Idle Mode An instruction that sets PCON.0 is the last instruction executed before the Idle mode begins. In the Idle mode, the internal clock signal is gated off to the CPU, but not to the Interrupt, Timer, and Serial Port functions. The CPU status is preserved in its entirety; the Stack Pointer, Program Counter, Program Status Word, Accumulator, and all other registers maintain their data during Idle. The port pins hold the logical states they had at the time Idle was activated. ALE and PSEN hold at logic high levels. There are two ways to terminate the Idle. Activation of any enabled interrupt will cause PCON.0 to be cleared by hardware, terminating the Idle mode. The interrupt will be serviced, and following RETI the next instruction to be executed will be the one following the instruction that put the device into Idle. The flag bits GF0 and GF1 can be used to indicate whether an interrupt occurred during normal operation or during an Idle. For example, an instruction that activates Idle can also set one or both flag bits. When Idle is terminated by an interrupt, the interrupt service routine can examine the flag bits. The other way of terminating the Idle mode is with a hardware reset. Since the clock oscillator is still running, the hardware reset must be held active for only two machine cycles (24 oscillator periods) to complete the reset. The signal at the RST pin clears the IDL bit directly and asynchronously. At this time, the CPU resumes program execution from where it left off; that is, at the instruction following the one that invoked the Idle Mode. As shown in Figure 22, two or three machine cycles of program execution may take place before the internal reset algorithm takes control. On-chip hardware inhibits access to the internal RAM during his time, but access to the port pins is not inhibited. To eliminate the possibility of unexpected outputs at the port pins, the instruction following the one that invokes Idle should not write to a port pin or to external data RAM. Integrated Circuit Solution Inc. MC003-0B Figure 8. Idle and Power-Down Hardware Power-down Mode An instruction that sets PCON.1 is the last instruction executed before Power-down mode begins. In the Powerdown mode, the on-chip oscillator stops. With the clock frozen, all functions are stopped, but the on-chip RAM and Special function Registers are held. The port pins output the values held by their respective SFRs. ALE and PSEN output lows. In the Power-down mode of operation, Vcc can be reduced to as low as 2V. However, Vcc must not be reduced before the Power-down mode is invoked, and Vcc must be restored to its normal operating level before the Power-down mode is terminated. The reset that terminates Power-down also frees the oscillator. The reset should not be activated before Vcc is restored to its normal operating level and must be held active long enough to allow the oscillator to restart and stabilize (normally less than 10 msec). The only exit from Power-down is a hardware reset. Reset redefines all the SFRs but does not change the on-chip RAM. 9 IC80C54 IC80C58 Table 3. Status of the External Pins During Idle and Power-down Modes. Mode Idle Idle Power-down Power-down Memory Internal External Internal External ALE 1 1 0 0 PSEN 1 1 0 0 PORT 0 Data Float Data Float PORT 1 Data Data Data Data PORT 2 Data Address Data Data PORT 3 Data Data Data Data On-Chip Oscillators The on-chip oscillator circuitry of the IC80C54/58 is a single stage inverter, intended for use as a crystalcontrolled, positive reactance oscillator. In this application the crystal is operated in its fundamental response mode as an inductive reactance in parallel resonance with capacitance external to the crystal (Figure 9). Examples of how to drive the clock with external oscillator are shown in Figure 10. The crystal specifications and capacitance values (C1 and C2 in Figure 9) are not critical. 20 pF to 30 pF can be used in these positions at a 12 MHz to 24 MHz frequency with good quality crystals. (For ranges greater than 24 MHz refer to Figure 11.) A ceramic resonator can be used in place of the crystal in cost-sensitive applications. When a ceramic resonator is used, C1 and C2 are normally selected to be of somewhat higher values. The manufacturer of the ceramic resonator should be consulted for recommendation on the values of these capacitors. C2 XTAL2 NC XTAL2 C1 XTAL1 EXTERNAL OSCILLATOR SIGNAL XTAL1 GND GND Figure 9. Oscillator Connections Figure 10. External Clock Drive Configuration 10 Integrated Circuit Solution Inc. MC003-0B IC80C54 IC80C58 XTAL2 XTAL1 R C2 C1 Figure 11. Oscillator Connections for High Speed (> 24 MHz) Note: When the frequency is higher than 24 MHz, please refer to Table 4 for recommended values of C1, C2, and R. Table 4. Recommended Value for C1, C2, R Frequency Range 3.5 MHz - 24 MHz 24 MHz - 40 MHz 20 pF-30 pF 3 pF-10 pF 20 pF-30 pF 3 pF-10 pF Not Apply 6.2K-10K C1 C2 R Integrated Circuit Solution Inc. MC003-0B 11 IC80C54 IC80C58 ROM Verification The address of the program menory location to be read is applied to Port 1 and pins P2.5-P2.0 (A14 is P3.4 for IC80C58). The other pins should be held at the "Verify" level are indicated in Figure 12. The contents of the addressed locations exits on Port 0. External pullups are required on Rort 0 for this operation. Figure 12 shows the setup to verify the program memory. + 5V A7-A0 P1 Vcc A12-A8 1 1 1 0 0 0 P2.4-P2.0 RST EA ALE PSEN P2.7 P2.6 XTAL1 P0 10K x 8 PGM DATA P2.5 P3.4 A13 P14 IC80C54 : A13 - A0 4-6 MHz XTAL2 GND IC80C58 : A14 - A0 Figure 12. ROM Verification 12 Integrated Circuit Solution Inc. MC003-0B IC80C54 IC80C58 ROM Lock System The ICSI 80C54/58 contains two Program Memory Locking: Security Bit 1: When programmed, this bit two effects on masked ROM parts: 1) External MOVC is disable, and 2) EA pin is latch on reset. Security Bit2: When programmed, this bit inhibits Verify User ROM. ABSOLUTE MAXIMUM RATINGS(1) Symbol VTERM TBIAS TSTG PT Parameter Terminal Voltage with Respect to GND(2) Temperature Under Bias(3) Storage Temperature Power Dissipation Value -2.0 to +7.0 0 to +70 -65 to +125 1.5 Unit V C C W Note: 1. Stress greater than those listed under ABSOLUTE MAXIMUM RATINGS may cause permanent damage to the device. This is a stress rating only and functional operation of the device at these or any other conditions above those indicated in the operational sections of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect reliability. 2. Minimum DC input voltage is -0.5V. During transitions, inputs may undershoot to -2. 0V for periods less than 20 ns. Maximum DC voltage on output pins is Vcc + 0.5V which may overshoot to Vcc + 2.0V for periods less than 20 ns. 3. Operating temperature is for commercial products only defined by this specification. OPERATING RANGE(1) Range Commercial Ambient Temperature 0C to +70C VCC 5V 10% Oscillator Frequency 3.5 to 40 MHz Note: 1. Operating ranges define those limits between which the functionality of the device is guaranteed. Integrated Circuit Solution Inc. MC003-0B 13 IC80C54 IC80C58 DC CHARACTERISTICS (Ta=0C to 70 C; VCC=5V+10%; VSS=0V ) Symbol VIL VIL1 VIH VIH1 VSCH+ VSCH- VOL(1) Parameter Input low voltage (All except EA) Input low voltage (EA) Input high voltage (All except XTAL 1, RST) Input high voltage (XTAL 1) RST positive schmitt-trigger threshold voltage RST negative schmitt-trigger threshold voltage Output low voltage (Ports 1, 2, 3) VOL1 (1) Test conditions Min -0.5 -0.5 0.2Vcc + 0.9 0.7Vcc 0.7Vcc 0 Max 0.2Vcc - 0.1 0.2Vcc - 0.3 Vcc + 0.5 Vcc + 0.5 Vcc + 0.5 0.3Vcc 0.3 0.45 1.0 0.3 0.45 1.0 -- -- -- -- -- -- -50 +10 -650 300 Unit V V V V V V V V V V V V V V V V V V A A A K Iol = 100 A IOL = 1.6 mA IOL = 3.5 mA IOL = 200 A IOL = 3.2 mA IOL = 7.0 mA IOH = -10 A Vcc = 4.5V-5.5V IOL = -25 A IOL = -60 A -- -- -- -- -- -- 0.9Vcc 0.75Vcc 2.4 0.9Vcc 0.75Vcc 2.4 -- -10 -- 50 Output low voltage (Port 0, ALE, PSEN) VOH Output high voltage (Ports 1, 2, 3, ALE, PSEN) VOH1 Output high voltage (Port 0, ALE, PSEN) IOH = -80 A Vcc = 4.5V-5.5V IOH = -300 A IOH = -800 A IIL ILI ITL RRST Note: Logical 0 input current (Ports 1, 2, 3) VIN = 0.45V Input leakage current (Port 0) Logical 1-to-0 transition current (Ports 1, 2, 3) RST pulldown resister 0.45V < VIN < Vcc VIN = 2.0V 1. Under steady state (non-transient) conditions, IOL must be externally limited as follows: Maximum IOL per port pin: 10 mA Maximum IOL per 8-bit port Port 0: 26 mA Ports 1, 2, 3: 15 mA Maximum total IOL for all output pins: 71 mA If IOL exceeds the test condition, VOL may exceed the related specification. 14 Integrated Circuit Solution Inc. MC003-0B IC80C54 IC80C58 POWER SUPPLY CHARACTERISTICS Symbol Icc Parameter Power supply current Active mode (1) Test conditions Vcc = 5.0V 12 MHz 16 MHz 20 MHz 25 MHz 36 MHz 40 MHz Min -- -- -- -- -- -- -- -- -- -- -- -- -- Max 20 26 32 38 50 62 5 6 7.6 9 12 15 100 Unit mA mA mA mA mA mA mA mA mA mA mA mA A Idle mode 12 MHz 16 MHz 20 MHz 25 MHz 36 MHz 40 MHz Power-down mode Note: 1. See Figures13,14,15, and 16 for Icc test conditiions. VCC = 5V Vcc Vcc RST Vcc Vcc P0 P0 Vcc Icc RST Vcc Vcc Icc NC CLOCK SIGNAL XTAL2 XTAL1 GND NC CLOCK SIGNAL XTAL2 XTAL1 GND EA EA Figure 13. Active Mode Vcc Icc RST Vcc Figure 14. Idle Mode Vcc P0 NC XTAL2 XTAL1 GND EA Figure 15. Power-down Mode Integrated Circuit Solution Inc. MC003-0B 15 IC80C54 IC80C58 tCLCX Vcc -- 0.5V 0.45V 0.7Vcc 0.2Vcc -- 0.1 tCHCX tCHCL tCLCL tCLCH Figure 16. Clock Signal Waveform for ICC Tests in Active and Idle Mode (tCLCH=tCHCL=5 ns) EXTERNAL MEMORY CHARACTERISTICS 24 MHz Clock Min Max -- -- 68 -- 26 -- 31 -- -- 147 31 -- 110 -- -- 105 0 -- -- 37 -- 188 -- 10 230 -- 230 -- -- 157 0 -- -- 78 -- 282 -- 323 105 145 146 -- 26 -- 31 -- -- 0 26 57 40 MHz Clock Min Max ---- 35 -- 10 -- 15 -- -- 80 15 -- 60 -- -- 55 0 -- -- 20 -- 105 -- 10 130 -- 130 -- -- 90 0 -- -- 45 -- 165 -- 190 55 95 80 -- 10 -- 15 -- -- 0 10 40 Variable Oscillator (3.5 - 40 MHz) Min Max 3.5 40 2tCLCL-15 -- tCLCL-15 -- tCLCL-10 -- -- 4tCLCL-20 tCLCL-10 -- 3tCLCL-15 -- -- 3tCLCL-20 0 -- -- tCLCL-5 -- 5tCLCL-20 -- 10 6tCLCL-20 -- 6tCLCL-20 -- -- 4tCLCL-10 0 -- -- 2tCLCL-5 -- 7tCLCL-10 -- 8tCLCL-10 3tCLCL-20 3tCLCL+20 4tCLCL-20 -- tCLCL-15 -- tCLCL-10 -- -- 0 tCLCL-15 tCLCL+15 Symbol 1/tCLCL tLHLL tAVLL tLLAX tLLIV tLLPL tPLPH tPLIV tPXIX tPXIZ tAVIV tPLAZ tRLRH tWLWH tRLDV tRHDX tRHDZ tLLDV tAVDV tLLWL tAVWL tQVWX tWHQX tRLAZ tWHLH Parameter Oscillator frequency ALE pulse width Address valid to ALE low Address hold after ALE low ALE low to valid instr in ALE low to PSEN low PSEN pulse width PSEN low to valid instr in Input instr hold after PSEN Input instr float after PSEN Address to valid instr in PSEN low to address float RD pulse width WR pulse width RD low to valid data in Data hold after RD Data float after RD ALE low to valid data in Address to valid data in ALE low to RD or WR low Address to RD or WR low Data valid to WR transition Data hold after WR RD low to address float RD or WR high to ALE high Unit MHz ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns ns 16 Integrated Circuit Solution Inc. MC003-0B IC80C54 IC80C58 EXTERNAL MEMORY CHARACTERISTICS 24 MHz Clock Min Max 490 510 406 -- 73 0 -- -- -- 417 40 MHz Clock Min Max 290 310 240 -- 40 0 -- -- -- 250 Variable Oscillator (3.5-40 MHz) Min Max 12tCLCL-10 12tCLCL+10 10tCLCL-10 -- 2tCLCL-10 0 -- -- -- 10tCLCL Symbol tXLXL tQVXH tXHQX tXHDX tXHDV Parameter Serial port clock cycle time Output data setup to clock rising edge Output data hold after clock rising edge Input data hold after clock rising edge Clock rising edge to input data valid Unit ns ns ns ns ns EXTERNAL CLOCK DRIVE Symbol 1/tCLCL tCHCX tCLCX tCLCH tCHCL Parameter Oscillator Frequency High time Low time Rise time Fall time Min 3.5 10 10 -- -- Max 40 -- -- 10 10 Unit MHz ns ns ns ns ROM VERIFICATION CHARACTERISTICS Symbol 1/tCLCL tAVQV tELQV tEHQZ Parameter Oscillator Frequency Address to data valid ENABLE low to data valid Data float after ENABLE Min 4 -- -- 0 Max 6 40tCLCL 48tCLCL 48tCLCL Unit MHz Integrated Circuit Solution Inc. MC003-0B 17 IC80C54 IC80C58 TIMING WAVEFORMS tLHLL ALE tLLPL tAVLL tPLPH tPLIV tPLAZ tPXIZ A7-A0 PSEN tLLAX tPXIX INSTR IN PORT 0 A7-A0 tLLIV tAVIV PORT 2 A15-A8 A15-A8 Figure 17. External Program Memory Read Cycle ALE tWHLH PSEN tLLDV tLLWL tAVLL tRLAZ tLLAX tRLRH tRHDZ tRHDX DATA IN A7-A0 FROM PCL INSTR IN RD PORT 0 tRLDV A7-A0 FROM RI OR DPL tAVWL tAVDV PORT 2 A15-A8 FROM DPH A15-A8 FROM PCH Figure 18. External Data Memory Read Cycle 18 Integrated Circuit Solution Inc. MC003-0B IC80C54 IC80C58 ALE tWHLH PSEN tLLWL tWLWH tWHQX A7-A0 FROM PCL INSTR IN WR PORT 0 tAVLL tLLAX A7-A0 FROM RI OR DPL tQVWX DATA OUT tAVWL PORT 2 A15-A8 FROM DPH A15-A8 FROM PCH Figure 19. External Data Memory Write Cycle INSTRUCTION 0 1 2 3 4 5 6 7 8 ALE tXLXL CLOCK tQVXH tXHQX 0 tXHDV 1 2 tXHDX VALID DATAOUT DATAIN 3 4 5 6 7 SET TI VALID VALID VALID VALID VALID VALID VALID SET RI Figure 20. Shift Register Mode Timing Waveform Integrated Circuit Solution Inc. MC003-0B 19 IC80C54 IC80C58 P1.0-P1.7 P2.0-P2.5[A14(P3.4)] PORT 0 tELQV ADDRESS tAVQV DATA OUT tEHQZ P2.7 Figure 21. ROM Verification Waveforms tCLCX Vcc -- 0.5V 0.45V 0.7Vcc 0.2Vcc -- 0.1 tCHCX tCHCL tCLCL tCLCH Figure 22. External Clock Drive Waveforms Vcc - 0.5V 0.45V 0.2Vcc + 0.9V 0.2Vcc - 0.1V Figure 23. AC Test Point Note: 1. AC inputs during testing are driven at VCC - 0.5V for logic "1" and 0.45V for logic "0". Timing measurements are made at VIH min for logic "1" and max for logic "0". 20 Integrated Circuit Solution Inc. MC003-0B IC80C54 IC80C58 ORDERING INFORMATION Commercial Temperature: 0C to +70C Speed 12 MHz Order Part Number IC80C54/58-12PL IC80C54/58-12PQ IC80C54/58-12W IC80C54/58-24PL IC80C54/58-24PQ IC80C54/58-24W IC80C54/58-40PL IC80C54/58-40PQ IC80C54/58-40W Package PLCC PQFP 600mil DIP PLCC PQFP 600mil DIP PLCC PQFP 600mil DIP 24 MHz 40 MHz Integrated Circuit Solution Inc. HEADQUARTER: NO.2, TECHNOLOGY RD. V, SCIENCE-BASED INDUSTRIAL PARK, HSIN-CHU, TAIWAN, R.O.C. TEL: 886-3-5780333 Fax: 886-3-5783000 BRANCH OFFICE: 7F, NO. 106, SEC. 1, HSIN-TAI 5TH ROAD, HSICHIH TAIPEI COUNTY, TAIWAN, R.O.C. TEL: 886-2-26962140 FAX: 886-2-26962252 http://www.icsi.com.tw Integrated Circuit Solution Inc. MC003-0B 21 IC80C54 IC80C58 22 Integrated Circuit Solution Inc. MC003-0B |
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