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Número de pieza S87C652-4N40
Descripción CMOS single-chip 8-bit microcontrollers
Fabricantes Philips 
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INTEGRATED CIRCUITS
87C652/87C654
80C51 8-bit microcontroller
8K/16K, 256 OTP, I2C
Product specification
Replaces data sheets 87C652 of 1998 May 01 and 87C654 of 1998 May 01
IC20 Data Handbook
1999 Jul 23
Philips
Semiconductors

1 page




S87C652-4N40 pdf
Philips Semiconductors
80C51 8-bit microcontroller
8K/16K, 256 OTP, I2C
Product specification
87C652/87C654
PIN DESCRIPTIONS
PIN NUMBER
MNEMONIC DIP LCC QFP TYPE NAME AND FUNCTION
VSS
VCC
P0.0–0.7
20
40
39–32
22
44
43–36
16
38
37–30
I Ground: 0 V reference.
I Power Supply: This is the power supply voltage for normal, idle, and power-down operation.
I/O Port 0: Port 0 is an open-drain, bidirectional I/O port. Port 0 pins that have 1s written to them
float and can be used as high-impedance 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 pull-ups when emitting 1s. Port 0 also outputs the code
bytes during program verification in the 87C654. External pull-ups are required during
program verification.
P1.0–P1.7
P1.6
P1.7
1–8 2–9 40–44, I/O Port 1: Port 1 is an 8-bit bidirectional I/O port with internal pull-ups, except P1.6 and P1.7
1–3 which are open drain. Port 1 pins that have 1s written to them are pulled high by the internal
pull-ups and can be used as inputs. As inputs, port 1 pins that are externally pulled low will
source current because of the internal pull-ups. (See DC Electrical Characteristics: IIL).
Port 1 also receives the low-order address byte during program memory verification.
Alternate functions include:
78
2 I/O
SCL: I2C-bus serial port clock line.
89
3 I/O
SDA: I2C-bus serial port data line.
P2.0–P2.7 21–28 24–31 18–25 I/O Port 2: Port 2 is an 8-bit bidirectional I/O port with internal pull-ups. Port 2 pins that have 1s
written to them are pulled high by the internal pull-ups and can be used as inputs. As inputs,
port 2 pins that are externally being pulled low will source current because of the internal
pull-ups. (See DC Electrical Characteristics: IIL). Port 2 emits the high-order address byte
during fetches from external program memory and during accesses to external data memory
that use 16-bit addresses (MOVX @DPTR). In this application, it uses strong internal
pull-ups when emitting 1s. During accesses to external data memory that use 8-bit
addresses (MOV @Ri), port 2 emits the contents of the P2 special function register.
P3.0–P3.7 10–17 11,
5,
13–19 7–13
10 11
5
11 13
7
12 14
8
13 15
9
14 16 10
15 17
11
16 18 12
17 19 13
I/O Port 3: Port 3 is an 8-bit bidirectional I/O port with internal pull-ups. Port 3 pins that have 1s
written to them are pulled high by the internal pull-ups and can be used as inputs. As inputs,
port 3 pins that are externally being pulled low will source current because of the pull-ups.
(See DC Electrical Characteristics: IIL). Port 3 also serves the special features of the 80C51
family, as listed below:
I RxD (P3.0): Serial input port
O TxD (P3.1): Serial output port
I INT0 (P3.2): External interrupt
I INT1 (P3.3): External interrupt
I T0 (P3.4): Timer 0 external input
I T1 (P3.5): Timer 1 external input
O WR (P3.6): External data memory write strobe
O RD (P3.7): External data memory read strobe
RST
9 10
4
I Reset: A high on this pin for two machine cycles while the oscillator is running, resets the
device. An internal diffused resistor to VSS permits a power-on reset using only an external
capacitor to VCC.
ALE/PROG 30 33 27 I/O Address Latch Enable/Program Pulse: Output pulse for latching the low byte of the
address during an access to 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. This pin is
also the program pulse input (PROG) during EPROM programming.
PSEN
29 32 26
O Program Store Enable: The read strobe to external program memory. When the 87C654 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.
EA/VPP
XTAL1
31 35 29
19 21 15
I External Access Enable/Programming Supply Voltage: EA must be externally held low to
enable the device to fetch code from external program memory locations 0000H and 1FFFH
for 87C652 and 3FFFH for 87C654. If EA is held high, the device executes from internal
program memory unless the program counter contains an address greater than 3FFFH. This
pin also receives the 12.75 V programming supply voltage (VPP) during EPROM programming.
I Crystal 1: Input to the inverting oscillator amplifier and input to the internal clock generator
circuits.
XTAL2
18 20 14
O Crystal 2: Output from the inverting oscillator amplifier.
NOTE:
To avoid “latch-up” effect at power-on, the voltage on any pin at any time must not be higher than VCC + 0.5 V or VSS – 0.5 V, respectively.
1999 Jul 23
5

5 Page





S87C652-4N40 arduino
Philips Semiconductors
80C51 8-bit microcontroller
8K/16K, 256 OTP, I2C
Product specification
87C652/87C654
AC ELECTRICAL CHARACTERISTICS1, 2
20 MHz CLOCK
VARIABLE CLOCK
SYMBOL FIGURE
PARAMETER
MIN MAX
MIN
MAX
1/tCLCL
2 Oscillator frequency: Speed Versions
87C654
–7, –8
3.5 20
tLHLL
tAVLL
tLLAX
tLLIV
tLLPL
tPLPH
tPLIV
tPXIX
tPXIZ
tAVIV
tPLAZ
Data Memory
2
2
2
2
2
2
2
2
2
2
2
ALE pulse width
Address valid to ALE low
Address hold after ALE low
ALE low to valid instruction in
ALE low to PSEN low
PSEN pulse width
PSEN low to valid instruction in
Input instruction hold after PSEN
Input instruction float after PSEN
Address to valid instruction in
PSEN low to address float
60 2tCLCL–40
25 tCLCL–25
25 tCLCL–25
135 4tCLCL–65
25 tCLCL–25
105 3tCLCL–45
90 3tCLCL–60
00
25 tCLCL–25
170 5tCLCL–80
10 10
tAVLL
3, 4 Address valid to ALE low
25 tCLCL–25
tRLRH
3, 4 RD pulse width
200 6tCLCL–100
tWLWH
3, 4 WR pulse width
200 6tCLCL–100
tRLDV
3, 4 RD low to valid data in
160
tRHDX
3, 4 Data hold after RD
00
tRHDZ
3, 4 Data float after RD
72
tLLDV
3, 4 ALE low to valid data in
250
tAVDV
3, 4 Address to valid data in
285
tLLWL
3, 4 ALE low to RD or WR low
100 200 3tCLCL–50
tAVWL
3, 4 Address valid to WR low or RD low
125 4tCLCL–75
tQVWX
3, 4 Data valid to WR transition
20 tCLCL–30
tDW 3, 4 Data setup time before WR
220 7tCLCL–130
tWHQX
3, 4 Data hold after WR
25 tCLCL–25
tRLAZ
3, 4 RD low to address float
0
tWHLH
3, 4 RD or WR high to ALE high
25 75 tCLCL–25
Shift Register
tXLXL
tQVXH
tXHQX
tXHDX
tXHDV
5 Serial port clock cycle time3
5 Output data setup to clock rising edge3
5 Output data hold after clock rising edge3
5 Input data hold after clock rising edge3
5 Clock rising edge to input data valid3
0.6 12tCLCL
367 10tCLCL–133
40 2tCLCL–60
00
367
External Clock
tCHCX
tCLCX
tCLCH
tCHCL
6 High time3
6 Low time3
6 Rise time3
6 Fall time3
17
17
20
20
17
17
NOTES:
1. Parameters are valid over operating temperature range unless otherwise specified.
2. Load capacitance for port 0, ALE, and PSEN = 100 pF, load capacitance for all other outputs = 80 pF.
3. These values are characterized but not 100% production tested.
5tCLCL–90
2tCLCL–28
8tCLCL–150
9tCLCL–165
3tCLCL+50
0
tCLCL+25
10tCLCL–133
tCLCL – tLOW
tCLCL – tHIGH
20
20
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
ns
ns
µs
ns
ns
ns
ns
ns
ns
ns
ns
1999 Jul 23
11

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