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P83C749EBAA Schematic ( PDF Datasheet ) - NXP Semiconductors

Teilenummer P83C749EBAA
Beschreibung 80C51 8-bit microcontroller family 2K/64 OTP/ROM/ 5 channel 8-bit A/D/ PWM/ low pin count
Hersteller NXP Semiconductors
Logo NXP Semiconductors Logo 




Gesamt 22 Seiten
P83C749EBAA Datasheet, Funktion
INTEGRATED CIRCUITS
83C749/87C749
80C51 8-bit microcontroller family
2K/64 OTP/ROM, 5 channel 8-bit A/D, PWM,
low pin count
Preliminary specification
Supersedes data of 1998 Jan 06
IC20 Data Handbook
1998 Apr 23
Philips
Semiconductors






P83C749EBAA Datasheet, Funktion
Philips Semiconductors
80C51 8-bit microcontroller family
2K/64 OTP/ROM, 5 channel 8-bit A/D, PWM, low pin count
Preliminary specification
83C749/87C749
OSCILLATOR CHARACTERISTICS
X1 and X2 are the input and output, respectively, of an inverting
amplifier which can be configured for use as an on-chip oscillator.
To drive the device from an external clock source, X1 should be
driven while X2 is left unconnected. There are no requirements on
the duty cycle of the external clock signal, because the input to the
internal clock circuitry is through a divide-by-two flip-flop. However,
minimum and maximum high and low times specified in the data
sheet must be observed.
IDLE MODE
The 8XC749 includes the 80C51 power-down and idle mode
features. In idle mode, the CPU puts itself to sleep while all of the
on-chip peripherals except the A/D and PWM stay active. The
functions that continue to run while in the idle mode are Timer 0,
Timer I, and the interrupts. The instruction to invoke the idle mode is
the last instruction executed in the normal operating mode before
the idle mode is activated. The CPU contents, the on-chip RAM, and
all of the special function registers remain intact during this mode.
The idle mode can be terminated either by any enabled interrupt (at
which time the process is picked up at the interrupt service routine
and continued), or by a hardware reset which starts the processor in
the same manner as a power-on reset. Upon powering-up the
circuit, or exiting from idle mode, sufficient time must be allowed for
stabilization of the internal analog reference voltages before an A/D
conversion is started.
Special Function Registers
The special function registers (directly addressable only) contain all
of the 8XC751 registers except the program counter and the four
register banks. Most of the 21 special function registers are used to
control the on-chip peripheral hardware. Other registers include
arithmetic registers (ACC, B, PSW), stack pointer (SP) and data
pointer registers (DPH, DPL). Nine of the SFRs are bit addressable.
Data Pointer
The data pointer (DPTR) consists of a high byte (DPH) and a low
byte (DPL). In the 80C51 this register allows the access of external
data memory using the MOVX instruction. Since the 83C749 does
not support MOVX or external memory accesses, this register is
generally used as a 16-bit offset pointer of the accumulator in a
MOVC instruction. DPTR may also be manipulated as two
independent 8-bit registers.
POWER-DOWN MODE
In the power-down mode, the oscillator is stopped and the
instruction to invoke power-down is the last instruction executed.
Only the contents of the on-chip RAM are preserved. A hardware
reset is the only way to terminate the power-down mode. The control
bits for the reduced power modes are in the special function register
PCON.
Table 1. External Pin Status During Idle and
Power-Down Modes
MODE
Port 0*
Port 1
Port 2
Idle
Power-down
Data
Data
* Except for PWM output (P0.4).
Data
Data
Data
Data
DIFFERENCES BETWEEN THE 8XC749 AND THE
80C51
Program Memory
On the 8XC749, program memory is 2048 bytes long and is not
externally expandable, so the 80C51 instructions MOVX, LJMP, and
LCALL are not implemented. If these instructions are executed, the
appropriate number of instruction cycles will take place along with
external fetches; however, no operation will take place. The LJMP
may not respond to all program address bits. The only fixed
locations in program memory are the addresses at which execution
is taken up in response to reset and interrupts, which are as follows:
Program Memory
Event
Address
Reset
000
External INT0
003
Counter/timer 0
00B
External INT1
013
Timer I
01B
ADC
02B
PWM
033
Memory Organization
The 8XC749 manipulates operands in three memory address
spaces. The first is the program memory space which contains
program instructions as well as constants such as look-up tables.
The program memory space contains 2k bytes in the 8XC749.
The second memory space is the data memory array which has a
logical address space of 128 bytes. However, only the first 64 (0 to
3FH) are implemented in the 8XC749.
The third memory space is the special function register array having
a 128-byte address space (80H to FFH). Only selected locations in
this memory space are used (see Table 2). Note that the
architecture of these memory spaces (internal program memory,
internal data memory, and special function registers) is identical to
the 80C51, and the 8XC749 varies only in the amount of memory
physically implemented.
The 8XC749 does not directly address any external data or program
memory spaces. For this reason, the MOVX instructions in the
80C51 instruction set are not implemented in the 83C749, nor are
the alternate I/O pin functions RD and WR.
I/O Ports
The I/O pins provided by the 83C749 consist of port 0, port 1, and
port 3.
Port 0
Port 0 is a 5-bit bidirectional I/O port and includes alternate functions
on some pins of this port. Pins P0.3 and P0.4 are provided with
internal pullups while the remaining pins (P0.0, P0.1, and P0.2) have
open drain output structures. The alternate function for port P0.4 is
PWM output.
If the alternate function PWM is not being used, then this pin may be
used as an I/O port.
1998 Apr 23
6

6 Page









P83C749EBAA pdf, datenblatt
Philips Semiconductors
80C51 8-bit microcontroller family
2K/64 OTP/ROM, 5 channel 8-bit A/D, PWM, low pin count
Preliminary specification
83C749/87C749
DC ELECTRICAL CHARACTERISTICS
Tamb = 0°C to +70°C, AVCC = 5V ±5, AVSS = 0V4
VCC = 5V ± 10%, VSS = 0V
SYMBOL
ICC
Inputs
PARAMETER
Supply current (see Figure 6)
TEST
CONDITIONS
VIL
VIH
VIH1
VIL1
VIH2
Outputs
Input low voltage
Input high voltage, except X1, RST
Input high voltage, X1, RST
P0.2
Input low voltage
Input high voltage
(0 to 70°C)
(0 to 70°C)
(0 to 70°C)
(0 to 70°C)
(0 to 70°C)
VOL
VOL1
VOH
VOH2
VOL2
C
Output low voltage, ports 1, 3, 0.3, and 0.4
(PWM disabled)
Output low voltage, port 0.2
Output high voltage, ports 1, 3, 0.3, and 0.4
(PWM disabled)
Output high voltage, P0.4 (PWM enabled)
Port 0.0 and 0.1 – Drivers
Output low voltage
Driver, receiver combined:
Capacitance
IOL = 1.6mA2
IOL = 3.2mA2
IOH = –60µA,
IOH = –25µA
IOH = –10µA
IOH = –400µA
IOH = –40µA
IOL = 3mA
(over VCC range)
IIL
ITL
ILI
RRST
CIO
IPD
Logical 0 input current,
ports 1, 3, 0.3, and 0.4 (PWM disabled)11
Logical 1 to 0 transition current,
ports 1, 3, 0.3 and 0.411
Input leakage current, port 0.0, 0.1 and 0.2
Reset pull-down resistor
Pin capacitance
Power-down current5
VIN = 0.45V (0 to 70°C)
VIN = 2V (0 to 70°C)
0.45 < VIN < VCC
Test freq = 1MHz,
Tamb = 25°C
VCC = 2 to 5.5V
VCC = 2 to 6.0V
(83C749)
VPP VPP program voltage (87C749 only)
VSS = 0V
VCC = 5V±10%
Tamb = 21°C to 27°C
IPP Program current (87C749 only)
VPP = 13.0V
Analog Inputs (A/D guaranteed only with quartz window covered.)
AVCC
Analog supply voltage10
AVCC = VCC±0.2V
AICC
Analog operating supply current
AVCC = 5.12V
AVIN
Analog input voltage
CIA Analog input capacitance
tADS
Sampling time
tADC
Conversion time
NOTES ON FOLLOWING PAGE.
MIN
–0.5
0.2VCC+0.9
0.7VCC
–0.5
0.7VCC
2.4
0.75VCC
0.9VCC
2.4
0.9VCC
25
12.5
4.5
AVSS–0.2
LIMITS4
TYP1
MAX
0.2VCC–0.1
VCC+0.5
VCC+0.5
0.3VCC
VCC+0.5
0.45
0.45
0.4
10
–50
–650
±10
175
10
50
13.0
50
5.5
39
AVCC+0.2
15
8tCY
40tCY
UNIT
V
V
V
V
V
V
V
V
V
V
V
V
V
pF
µA
µA
µA
k
pF
µA
V
mA
V
mA
V
pF
s
s
1998 Apr 23
12

12 Page





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