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| COP888GD Datasheet, PDF (5/42 Pages) National Semiconductor (TI) – 8-Bit CMOS ROM Based Microcontrollers with 16k | |||
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DC Electrical Characteristics (Continued)
â0ËC ⤠TA ⤠+70ËC unless otherwise specified
Parameter
Conditions
Min
Typ
Max
Units
All others
3
mA
Maximum Input Current
Room Temp
±100
mA
without Latchup (Note 7) (Note 9)
RAM Retention Voltage, Vr
500 ns Rise
2
V
and Fall Time (min)
Input Capacitance
7
pF
Load Capacitance on D2
1000
pF
Note 2: tc = Instruction Cycle Time
Note 3: Maximum rate of voltage change must be < 0.5 V/ms.
Note 4: Supply and IDLE currents are measured with CKI driven with a square wave Oscillator, CKO driven 180Ë out of phase with CKI, inputs connected to VCC
and outputs driven low but not connected to a load.
Note 5: The HALT mode will stop CKI from oscillating in the RC and the Crystal configurations by bringing CKI high. Measurement of IDD HALT is done with device
neither sourcing nor sinking current; with L, C, G0, and G2âG5 programmed as low outputs and not driving a load; all outputs programmed low and not driving a load;
all inputs tied to VCC; clock monitor and comparator disabled. Parameter refers to HALT mode entered via setting bit 7 of the G Port data register. Part will pull up
CKI during HALT in crystal clock mode.
Note 6: The user must guarantee that D2 pin does not source more than 10 mA during RESET. If D2 sources more than 10 mA during reset, the device will go into
programming mode.
Note 7: Pins G6 and RESET are designed with a high voltage input network. These pins allow input voltages VCC and the pins will have sink current to VCC when
biased at voltages VCC (the pins do not have source current when biased at a voltage below VCC). The effective resistance to VCC is 750⦠(typical). These two pins
will not latch up. The voltage at the pins must be limited to < 14V. WARNING: Voltages in excess of 14V will cause damage to the pins. This warning excludes ESD
transients.
Note 8: The output propagation delay is referenced to the end of the instruction cycle where the output change occurs.
Note 9: Parameter characterized but not tested.
AC Electrical Characteristics
â40ËC ⤠TA ⤠+85ËC unless otherwise specified
Parameter
Conditions
Min
Typ
Max
Units
Instruction Cycle Time (tc)
Crystal, Resonator,
R/C Oscillator
CKI Clock Duty Cycle (Note 9)
Rise Time (Note 9)
Fall Time (Note 9)
Inputs
4.5V ⤠VCC ⤠5.5V
1.0
4.5V ⤠VCC ⤠5.5V
3.0
fr = Max
40
fr = 10 MHz Ext Clock
fr = 10 MHz Ext Clock
DC
µs
DC
µs
60
5
ns
5
ns
tSETUP
4.5V ⤠VCC ⤠5.5V
200
tHOLD
4.5V ⤠VCC ⤠5.5V
60
Output Propagation Delay (Note 8)
RL = 2.2k, CL = 100 pF
tPD1, tPD0
SO, SK
4.5V ⤠VCC ⤠5.5V
All Others
4.5V ⤠VCC ⤠5.5V
MICROWIRE⢠Setup Time (tUWS) (Note
20
9)
ns
ns
0.7
µs
1.0
µs
ns
MICROWIRE Hold Time (tUWH) (Note 9)
MICROWIRE Output Propagation Delay
(tUPD)
Input Pulse Width (Note 9)
56
ns
220
ns
Interrupt Input High Time
Interrupt Input Low Time
Timer 1, 2, 3 Input High Time
Timer 1, 2, 3 Input Low Time
Reset Pulse Width
1.0
tc
1.0
tc
1.0
tc
1.0
tc
1.0
µs
Note 10: tc = Instruction Cycle Time
Note 11: Maximum rate of voltage change must be < 0.5 V/ms.
5
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