EZ80L92MCU Datasheet, PDF(139/241 Page) Zilog, Inc. – eZ80Acclaim Flash Microcontrollers

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

EZ80L92MCU Datasheet, PDF (139/241 Pages) Zilog, Inc. – eZ80Acclaim Flash Microcontrollers

◁

eZ80L92 MCU

Product Specification

124

output following a 7-clock High (1) period. Following the 3-clock Low pulse, is a 6-clock

High pulse to complete the full 16-clock data period. Data transmission is illustrated in

Figure 26.

Baud Rate

Clock

IR_RxD

16-clock

period

Start Bit = 0 Data Bit 0 = 1 Data Bit 1 = 0 Data Bit 2 = 1 Data Bit 3 = 1

1.6 Âµs

min. pulse

UART_RxD

8-clock

delay

16-clock

period

16-clock

period

16-clock

period

Figure 26. Infrared Data Reception

16-clock

period

Jitter

Due to the inherent sampling of the received IR_RXD signal by the BIt Rate Clock, some

jitter can be expected on the first bit in any sequence of data. However, all subsequent bits

in the received data stream are a fixed 16-clock periods wide.

Infrared Encoder/Decoder Signal Pins

The infrared encoder/decoder signal pins (IR_TXD and IR_RXD) are multiplexed with

General-Purpose I/O (GPIO) pins. These GPIO pins must be configured for alternate func-

tion operation for the infrared encoder/decoder to operate.

The remaining six UART0 pins (CTS0, DCD0, DSR0, DTR0, RTS0 and RI0) are not

required for use with the infrared encoder/decoder. The UART0 modem status interrupt

should be disabled to prevent unwanted interrupts from these pins. The GPIO pins corre-

sponding to these six unused UART0 pins can be used for inputs, outputs, or interrupt

sources. Recommended GPIO Port D control register settings are provided in Table 66.

Refer to the section covering the General-Purpose Input/Output, on page 39 for additional

information about setting the GPIO Port modes

PS013012-1004

PRELIMINARY

Infrared Encoder/Decoder

▷