TSC80C31-40ADBP883 View Datasheet(PDF) - Temic Semiconductors

Part Name

Description

Manufacturer

TSC80C31-40ADBP883

CMOS 0 to 44 MHz Single-Chip 8 Bit Microcontroller

Temic Semiconductors 

TSC80C31/80C51

The flag bits GF0 and GF1 may be used to determine

whether the interrupt was received during normal

execution or during the Idle mode. For example, the

instruction that writes to PCON.0 can also set or clear one

or both flag bits. When Idle mode is terminated by an

enabled interrupt, the service routine can examine the

status of the flag bits.

The second way of terminating the Idle mode is with a

hardware reset. Since the oscillator is still running, the

hardware reset needs to be active for only 2 machine

cycles (24 oscillator periods) to complete the reset

operation.

Power Down Mode

The instruction that sets PCON.1 is the last executed prior

to entering power down. Once in power down, the

oscillator is stopped. The contents of the onchip RAM and

the Special Function Register is saved during power down

mode. The hardware reset initiates the Special Fucntion

Register. In the Power Down mode, VCC may be lowered

to mi-nimize circuit power consumption. Care must be

taken to ensure the voltage is not reduced until the power

down mode is entered, and that the voltage is restored

before the hardware reset is applied which freezes the

oscillator. Reset should not be released until the oscillator

has restarted and stabilized. A hardware reset is the only

way of exiting the power down mode.

Table 1 describes the status of the external pins while in

the power down mode. It should be noted that if the power

down mode is activated while in external program

memory, the port data that is held in the Special Function

Register P2 is restored to Port 2. If the data is a 1, the port

pin is held high during the power down mode by the

strong pullup, T1, shown in Figure 4.

Table 1. Status of the external pins during idle and power down modes.

MODE

Idle

Idle

Power Down

Power Down

PROGRAM MEMORY

Internal

External

Internal

External

ALE

1

1

0

0

PSEN

1

1

0

0

PORT0

Port Data

Floating

Port Data

Floating

PORT1

Port Data

Port Data

Port Data

Port Data

PORT2

Port Data

Address

Port Data

Port Data

PORT3

Port Data

Port Data

Port Data

Port Data

Stop Clock Mode

Due to static design, the TSC80C31/80C51 clock speed

can be reduced until 0 MHz without any data loss in

memory or registers. This mode allows step by step

utilization, and permits to reduce system power

consumption by bringing the clock frequency down to

any value. At 0 MHz, the power consumption is the same

as in the Power Down Mode.

Figure 4. I/O Buffers in the TSC80C31/80C51 (Ports

1, 2, 3).

I/O Ports

The I/O buffers for Ports 1, 2 and 3 are implemented as

shown in Figure 4.

6

MATRA MHS

Rev. E (14 Jan.97)

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