P89LPC933_934_935_936 NXP Semiconductors, P89LPC933_934_935_936 Datasheet - Page 33

P89LPC933_934_935_936

Manufacturer Part Number

P89LPC933_934_935_936

Description

The P89LPC933/934/935/936 is a single-chip microcontroller, available in low costpackages, based on a high performance processor architecture that executes instructionsin two to four clocks, six times the rate of standard 80C51 devices

Manufacturer

NXP Semiconductors

Datasheet

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P89LPC933_934_935_936

Product data sheet

8.15.3 Total Power-down mode

8.16.1 Reset vector

8.16 Reset

This is the same as Power-down mode except that the brownout detection circuitry and

the voltage comparators are also disabled to conserve additional power. The internal RC

oscillator is disabled unless both the RC oscillator has been selected as the system clock

and the RTC is enabled. If the internal RC oscillator is used to clock the RTC during

power-down, there will be high power consumption. Please use an external low frequency

clock to achieve low power with the RTC running during power-down.

The P1.5/RST pin can function as either a LOW-active reset input or as a digital input,

P1.5. The Reset Pin Enable (RPE) bit in UCFG1, when set to logic 1, enables the external

reset input function on P1.5. When cleared, P1.5 may be used as an input pin.

Remark: During a power-up sequence, the RPE selection is overridden and this pin will

always functions as a reset input. An external circuit connected to this pin should not

hold this pin LOW during a power-on sequence as this will keep the device in reset.

After power-up this input will function either as an external reset input or as a digital input

as defined by the RPE bit. Only a power-up reset will temporarily override the selection

defined by RPE bit. Other sources of reset will not override the RPE bit. When this pin

functions as a reset input, an internal pull-up resistance is connected (see

characteristics”).

Reset can be triggered from the following sources:

For every reset source, there is a flag in the reset register, RSTSRC. The user can read

this register to determine the most recent reset source. These flag bits can be cleared in

software by writing a logic 0 to the corresponding bit. More than one flag bit may be set:

Following reset, the P89LPC933/934/935/936 will fetch instructions from either address

0000H or the boot address. The boot address is formed by using the boot vector as the

high byte of the address and the low byte of the address = 00H.

The boot address will be used if a UART break reset occurs, or the non-volatile boot

status bit (BOOTSTAT.0) = 1, or the device is forced into ISP mode during power-on (see

P89LPC933/934/935/936 User manual). Otherwise, instructions will be fetched from

address 0000H.

•

External reset pin (during power-up or if user configured via UCFG1).

Power-on detect.

Brownout detect.

Watchdog timer.

Software reset.

UART break character detect reset.

During a power-on reset, both POF and BOF are set but the other flag bits are

cleared.

For any other reset, previously set flag bits that have not been cleared will remain set.

All information provided in this document is subject to legal disclaimers.

Rev. 8 — 12 January 2011

8-bit microcontroller with accelerated two-clock 80C51 core

P89LPC933/934/935/936

Table 11 “Static

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P89LPC933_934_935_936

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