P80C31X2 View Datasheet(PDF) - NXP Semiconductors.

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Description

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P80C31X2

80C51 8-bit microcontroller family 4K/8K/16K/32K ROM/OTP 128B/256B RAM low voltage (2.7 to 5.5 V), low power, high speed (30/33 MHz)

NXP Semiconductors. 

Philips Semiconductors

80C51 8-bit microcontroller family

4K/8K/16K/32K ROM/OTP, low voltage (2.7 to 5.5 V),

low power, high speed (30/33 MHz)

Product data

P80C3xX2; P80C5xX2;

P87C5xX2

Low-Power EPROM operation (LPEP)

The EPROM array contains some analog circuits that are not

required when VCC is less than 4 V, but are required for a VCC

greater than 4 V. The LPEP bit (AUXR.4), when set, will powerdown

these analog circuits resulting in a reduced supply current. This bit

should be set ONLY for applications that operate at a VCC less than

4 V.

Design Consideration

When the idle mode is terminated by a hardware reset, the device

normally resumes program execution from where it left off, up to two

machine cycles before the internal reset algorithm takes control.

On-chip hardware inhibits access to internal RAM in this event, but

access to the port pins is not inhibited. To eliminate the possibility of

an unexpected write when Idle is terminated by reset, the instruction

following the one that invokes Idle should not be one that writes to a

port pin or to external memory.

ONCE™ Mode

The ONCE (“On-Circuit Emulation”) Mode facilitates testing and

debugging of systems without the device having to be removed from

the circuit. The ONCE Mode is invoked in the following way:

1. Pull ALE low while the device is in reset and PSEN is high;

2. Hold ALE low as RST is deactivated.

While the device is in ONCE Mode, the Port 0 pins go into a float

state, and the other port pins and ALE and PSEN are weakly pulled

high. The oscillator circuit remains active. While the device is in this

mode, an emulator or test CPU can be used to drive the circuit.

Normal operation is restored when a normal reset is applied.

Table 3. External Pin Status During Idle and Power-Down Modes

MODE

PROGRAM MEMORY

ALE

PSEN

PORT 0

Idle

Internal

1

1

Data

Idle

External

1

1

Float

Power-down

Internal

0

0

Data

Power-down

External

0

0

Float

PORT 1

Data

Data

Data

Data

PORT 2

Data

Address

Data

Data

PORT 3

Data

Data

Data

Data

TIMER 0 AND TIMER 1 OPERATION

Timer 0 and Timer 1

The “Timer” or “Counter” function is selected by control bits C/T in

the Special Function Register TMOD. These two Timer/Counters

have four operating modes, which are selected by bit-pairs (M1, M0)

in TMOD. Modes 0, 1, and 2 are the same for both Timers/Counters.

Mode 3 is different. The four operating modes are described in the

following text.

Mode 0

Putting either Timer into Mode 0 makes it look like an 8048 Timer,

which is an 8-bit Counter with a divide-by-32 prescaler. Figure 2

shows the Mode 0 operation.

In this mode, the Timer register is configured as a 13-bit register. As

the count rolls over from all 1s to all 0s, it sets the Timer interrupt

flag TFn. The counted input is enabled to the Timer when TRn = 1

and either GATE = 0 or INTn = 1. (Setting GATE = 1 allows the

Timer to be controlled by external input INTn, to facilitate pulse width

measurements). TRn is a control bit in the Special Function Register

TCON (Figure 3).

The 13-bit register consists of all 8 bits of THn and the lower 5 bits

of TLn. The upper 3 bits of TLn are indeterminate and should be

ignored. Setting the run flag (TRn) does not clear the registers.

Mode 0 operation is the same for Timer 0 as for Timer 1. There are

two different GATE bits, one for Timer 1 (TMOD.7) and one for Timer

0 (TMOD.3).

Mode 1

Mode 1 is the same as Mode 0, except that the Timer register is

being run with all 16 bits.

Mode 2

Mode 2 configures the Timer register as an 8-bit Counter (TLn) with

automatic reload, as shown in Figure 4. Overflow from TLn not only

sets TFn, but also reloads TLn with the contents of THn, which is

preset by software. The reload leaves THn unchanged.

Mode 2 operation is the same for Timer 0 as for Timer 1.

Mode 3

Timer 1 in Mode 3 simply holds its count. The effect is the same as

setting TR1 = 0.

Timer 0 in Mode 3 establishes TL0 and TH0 as two separate

counters. The logic for Mode 3 on Timer 0 is shown in Figure 5. TL0

uses the Timer 0 control bits: C/T, GATE, TR0, and TF0 as well as

pin INT0. TH0 is locked into a timer function (counting machine

cycles) and takes over the use of TR1 and TF1 from Timer 1. Thus,

TH0 now controls the “Timer 1” interrupt.

Mode 3 is provided for applications requiring an extra 8-bit timer on

the counter. With Timer 0 in Mode 3, an 80C51 can look like it has

three Timer/Counters. When Timer 0 is in Mode 3, Timer 1 can be

turned on and off by switching it out of and into its own Mode 3, or

can still be used by the serial port as a baud rate generator, or in

fact, in any application not requiring an interrupt.

2003 Jan 24

14

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