P89LPC980 NXP [NXP Semiconductors], P89LPC980 Datasheet - Page 47

P89LPC980

Manufacturer Part Number

P89LPC980

Description

8-bit microcontroller with accelerated two-clock 80C51 core, 4 kB/8 kB wide-voltage byte-erasable flash with 10-bit ADC

Manufacturer

NXP [NXP Semiconductors]

Datasheet

1.P89LPC980.pdf (85 pages)

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Download datasheet (561Kb)

NXP Semiconductors

P89LPC980_982_983_985_2

Preliminary data sheet

7.22.10 The 9

7.22.7 Break detect

7.22.8 Double buffering

7.22.9 Transmit interrupts with double buffering enabled (modes 1, 2 and 3)

7.23 I

Break detect is reported in the status register (SSTAT). A break is detected when

11 consecutive bits are sensed LOW. The break detect can be used to reset the device

and force the device into ISP mode.

The UART has a transmit double buffer that allows buffering of the next character to be

written to SnBUF while the first character is being transmitted. Double buffering allows

transmission of a string of characters with only one stop bit between any two characters,

as long as the next character is written between the start bit and the stop bit of the

previous character.

Double buffering can be disabled. If disabled (DBMOD, i.e., SSTAT.7 = 0), the UART is

compatible with the conventional 80C51 UART. If enabled, the UART allows writing to

SBUF while the previous data is being shifted out. Double buffering is only allowed in

Modes 1, 2 and 3. When operated in Mode 0, double buffering must be disabled

(DBMOD = 0).

Unlike the conventional UART, in double buffering mode, the TI interrupt is generated

when the double buffer is ready to receive new data.

If double buffering is disabled TB8 can be written before or after SBUF is written, as long

as TB8 is updated some time before that bit is shifted out. TB8 must not be changed until

the bit is shifted out, as indicated by the TI interrupt.

If double buffering is enabled, TB must be updated before SBUF is written, as TB8 will be

double-buffered together with SBUF data.

The I

connected to the bus, and it has the following features:

A typical I

device provides a byte-oriented I

400 kHz.

•

C-bus serial interface

Bidirectional data transfer between masters and slaves

Multi master bus (no central master)

Arbitration between simultaneously transmitting masters without corruption of serial

data on the bus

Serial clock synchronization allows devices with different bit rates to communicate via

one serial bus

Serial clock synchronization can be used as a handshake mechanism to suspend and

resume serial transfer

The I

C-bus uses two wires (SDA and SCL) to transfer information between devices

bit (bit 8) in double buffering (modes 1, 2 and 3)

C-bus may be used for test and diagnostic purposes.

C-bus configuration is shown in

Rev. 02 — 8 February 2010

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

C-bus interface that supports data transfers up to

P89LPC980/982/983/985

Figure

12. The P89LPC980/982/983/985

47 of 85

P89LPC980 NXP [NXP Semiconductors], P89LPC980 Datasheet - Page 47

P89LPC980

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