80
E (GND)
DATA connector

Note:

1If the TX delay of your TNC is not long enough, connection errors may occur. If connection errors frequently occur, it is recommended

2to set the TX delay parameter on the TNC to 300 ms by using your computer.

3Using a modulator input level that is far different from the optimum 40 mVP-Por 2 VP-Pspecifications may result in deterioration of the S/N

4ratio or signal distortion. This could result in increased errors or a complete failure to connect with other stations.

5If the modulator input level exceeds approximately 3 VP-Pthe limiter circuit functions to maintain the same transmit bandwidth as that of

63 VP-P.

Packet operation, easily affected by transmit and receive conditions,

7requires a full-scale S-meter reading for reliable communication. When the S-meter reads less than maximum during 9600 bps

8operation, communication errors are frequent.

Inputting 9600 bps GMSK signals at too high a level or inputting

9significantly distorted signals into the transceiver can cause errors and a wide transmit bandwidth that may interfere with other stations.

10

DATA Connector Pin Functions

11

12

This section describes each pin of the DATA connector

equipped on this transceiver.

13

14

15

16

17

18

19

20

21

Pin

Pin

Function

No.

Name

 

1

PKD

Packet data input

 

 

• TX data from TNC to transceiver

 

 

 

2

DE

Ground for PKD

3

PKS

Packet standby

 

 

• TNC can use this pin to inhibit the

 

 

transceiver microphone input while

 

 

transmitting packet signals.

 

 

 

4

PR9

Output of detected 9600 bps data

 

 

(500 mVP-P, 10 kΩ)

 

 

• Also functions as a common pin for

 

 

1200 bps and 9600 bps data output.

 

 

 

5

PR1

Output of detected 1200 bps data

 

 

(500 mVP-P, 10 kΩ)

 

 

 

6

SQC

Squelch control output

 

 

• Inhibits TNC data transmitting while

 

 

transceiver squelch is open.

 

 

• Prevents interference to voice

 

 

communications on the same

 

 

frequency. Also prevents retries.

 

 

• Output Level

 

 

Open squelch: +5 V (High)

 

 

Closed squelch: 0 V (Low)

 

 

 

Note:

If your TNC has a common pin for 1200 bps and 9600 bps data input, connect this pin to the DATA connector PR9 pin. Shorting the PR9 and PR1 pins will cause the TNC to malfunction.

When DC voltage is input to the PR1 pin, the TNC may not function. If this problem happens, add a 10 F capacitor between the PR1 pin and the TNC. Be careful about the polarity of the capacitor.