XR88C681CP/40-F Exar Corporation, XR88C681CP/40-F Datasheet - Page 70

XR88C681CP/40-F

Manufacturer Part Number

XR88C681CP/40-F

Description

IC UART CMOS DUAL 40PDIP

Manufacturer

Exar Corporation

Type

CMOS Dual Channel UARTr

Datasheet

1.XR88C681CP40-F.pdf (101 pages)

Specifications of XR88C681CP/40-F

Number Of Channels

2, DUART

Package / Case

40-DIP (0.600", 15.24mm)

Features

Fifo's

1 Byte, 3 Byte

Voltage - Supply

With Parallel Port

Yes

With Cmos

Yes

Mounting Type

Through Hole

Data Rate

1 Mbps

Supply Voltage (max)

5.25 V

Supply Voltage (min)

4.75 V

Supply Current

15 mA

Maximum Operating Temperature

+ 70 C

Minimum Operating Temperature

0 C

Mounting Style

Through Hole

Operating Supply Voltage

5 V

Propagation Delay Time Ns

400 ns

No. Of Channels

Supply Voltage Range

4.75V To 5.25V

Operating Temperature Range

0Â°C To +70Â°C

Digital Ic Case Style

DIP

No. Of Pins

Filter Terminals

DIP

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Lead Free Status / RoHS Status

Lead free / RoHS Compliant, Lead free / RoHS Compliant

Other names

1016-1328-5

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

XR88C681CP/40-F

Manufacturer:

Linear

Quantity:

185

Current page: 70 of 101
Download datasheet (3Mb)

The receiver functions by sensing the voltage level at the

RXDn input. When the far-end transmitter is idle, its TXDn

output

continuously “marking”. During this period the Receiver is

inactive and is not receiving or processing any data.

However, when the far-end transmitter sends the START

bit, (with its TXDn output toggling “low”), a receiver clock,

which is 16 times the baud rate (with the 16x clock), will

start sampling this START bit. If the receiver determines

that its RXDn input is still “low” after its 7th sample, then

the receiver hardware considers this signal to be a valid

START bit. If the RXDn input is not “low” at the 7th

sample, the Receiver will ignore this downward pulse as

“noise”. From this 7th sample on, the Receiver will

sample each successive bit at one bit-period intervals

(1/baud rate) with the 1x clock. The purpose of this 16x

Clock is then two-fold.

1. To verify that the detected “low” level in the RXDn input

is indeed a START bit.

Rev. 2.11

(and

Incoming

Serial Data

consequently,

RXDn

Figure 37. A Simplified Drawing of the Receiver Shift Register

Receive Shift Register

the

RXDn

and Receiver Holding Register

input)

Receiver Clock (from Timing Block)

Receive Holding

2. To establish the phase relationship between the 1x bit

Please note that if a 16X clock is selected for the receiver,

this over-sampling procedure occurs with each and every

start bit.

The receiver will continue to sample (and receive) each

bit of the character that follows the START bit, at one-bit

time intervals. Upon reception of the character’s MSB the

receiver will check parity (if programmed) or will sample

for the STOP bit.

condition at this time and the parity check (if any) was

valid; a successful reception of the character is

presumed; and the Receiver will prepare to sense and

oversample the occurrence of the START bit for the next

character.

sampling clock, and the incoming serial data stream.

The idea is to sample each data bit in the middle of its

bit period.

RXCn

If the Receiver samples a mark

To Data Bus

To be read by the CPU

XR88C681CP/40-F Exar Corporation, XR88C681CP/40-F Datasheet - Page 70

XR88C681CP/40-F

Specifications of XR88C681CP/40-F

Available stocks

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