Communications Specialists TS-64WDS Instruções de instalação - Página 4

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3.0 INSTALLATION INSTRUCTIONS

Installation if the TS-64WDS should be done by a qualified two-way radio technician. When

installing the TS-64WDS be careful not to twist or bend the printed circuit board as this can dam-

age the surface mount components. In addition, use static protection techniques while handling

the unit. Be sure that all power is removed before installing or programming the TS-64WDS. The

following paragraphs describe each of the external connections on the TS-64WDS.

+VOLTAGE (RED) (Pin 3)

This wire should be connected directly to a filtered source of continuous positive DC voltage in

the range of +6.0VDC to +20.0VDC. This connection should be made "downstream" from the

power switch, and the power supply filter components in the radio set. If a regulated source of DC

voltage is available, it may be used. Using a quiet and stable source of DC voltage inside the

radio set will reduce the possibility of picking up power supply noise.

GROUND (BLACK) (Pin 9)

The Ground wire should be connected to a location inside the radio set which will supply a DC

power ground return to the TS-64WDS. To eliminate ground loops and power supply noise, the

ground return to the TS-64WDS should be the same power supply ground used in the transmit or

receive audio stages.

PTT INPUT (ORANGE / WHITE) (Pin 4) THIS LEAD MUST BE GROUNDED TO ENCODE

TONE

PTT OUTPUT (YELLOW / BLACK) (Pin 10)

The PTT Input detects a transmit condition by sensing a 'pull to ground' on the PTT line of the

radio set. This information is used by the TS-64WDS to determine transmit status. The PTT

Output line is a FET that pulls to ground to key the transmitter during CTCSS transmission.

To Install the PTT Input and PTT Output lines, cut the PTT line in the radio set at the microphone

connector, and insert the PTT Input and PTT Output on the TS-64WDS in series with the trans-

mitter's PTT line. The TS-64WDS will now control the transmit PTT line.

As an alternative to simplify the installation, the PTT Input line on the TS-64WDS may be perma-

nently grounded, and the PTT Output line can be left unconnected. This will enable the TS-

64WDS encoder at all times. If this arrangement is used, be sure that the Transmit Time-out-

timer on the TS-64WDS is disabled. A reverse phase burst will of course not be sent.

CTCSS OUTPUT (YELLOW) (Pin 6)

This output generates the CTCSS encode tone. The most common place to connect this line is

just prior to the modulation stage in the transmitter. Typical connections would be to the center of

the deviation pot, to the varactor diode in the modulator circuit, or to the manufacturer's sug-

gested connection point. This connection point can vary from radio to radio. Do not connect the

CTCSS Output to the microphone input as the microphone audio stages will distort and attenuate

the CTCSS signal.

Since the CTCSS Output on the TS-64WDS is low impedance, you may have to install a series

resistor to reduce the loading effects of the CTCSS Output depending on the interface imped-

ance. This is evident in the case of connecting to the center of a 100K deviation pot. In this case,

a 100K series resistor will compensate for the impedance difference. In addition, a slight adjust-

ment of the voice deviation may be required to compensate for the CTCSS Output circuit loading.

RX MUTE OUTPUT #1 (GREEN / WHITE) (Pin 13)

This output is a FET that pulls to ground when not decoding to mute receive audio. The RX Mute

Output #1 is usually connected to the collector of the 'squelch switch transistor' in the receiver.

To find the correct connection point for RX Mute Output #1, locate a point in the receiver squelch

circuit that will 'mute' the receiver audio upon application of a ground potential. This will be the

correct point for connection. If you choose this option, leave RX Mute Output #2 disconnected.

RX MUTE OUTPUT #2 (BROWN) (Pin 7)

This output is also a FET that is the reverse of Rx Mute Output #1 and pulls to ground when

decoding to mute receive audio. To find the correct connection point for RX Mute Output #2,

locate a point in the receiver squelch circuit that will "open" the receiver audio upon application of

a ground potential. This will be the correct point for connection. If you choose this option, leave

RX Mute Output #1 disconnected.

DISCRIMINATOR INPUT (GREEN) (Pin 12)

This wire feeds the CTCSS decoder in the TS-64WDS. This connection MUST be made directly

to the receiver discriminator output in the receiver. Please note that many discriminator circuits

have a low pass filter on the discriminator output that consists of a small inductor and a capacitor.

This filter network is used to attenuate very high frequency components. In the case where this

network is used, the TS-64WDS Discriminator Input should be connected AFTER this network.

Connecting the Discriminator Input after any audio processing circuitry in the receiver may distort

and attenuate the CTCSS signal and produce unreliable decoding.

HIGH PASS FILTER INPUT (BLUE / WHITE) (Pin 1)

This wire feeds audio to the input of the High Pass Audio Filter. It is normally connected to the

discriminator at the same point as the Discriminator Input above (green wire, Pin 12)

HIGH PASS FILTER OUTPUT (BLUE) (Pin 11)

The High Pass Filter Output removes the CTCSS signal from the receiver discriminator audio so

that the operator will not hear it. In many cases, the audio response of the receiver will not pass

the CTCSS signal, and the High Pass Filter on the TS-64WDS will not be required. In those

cases where the High Pass Filter must be utilized, break the discriminator audio path in the

receiver just after the point where the TS-64WDS Discriminator Input was connected. Then

install the High Pass Filter Output so that it is in series with the audio path in the receiver.

HIGH PASS FILTER MUTE (BROWN / BLACK) (Pin 8)

If this wire is shorted to ground, any audio flowing through the High Pass Audio Filter will be

muted. Normally this is not used, however if you are using the High Pass Audio Filter, you may

connect this wire to RX MUTE OUTPUT #1 to allow receive audio when the TS-64WDS is de-

coding the proper tone or the microphone hang-up is off hook.

MICROPHONE HANG-UP/BUSY INPUT (VIOLET) (Pin 2)

This is a dual function input that is determined by the H/B jumper pad. When the H/B jumper pad

has no "solder bridge" across it, this input will operate as a Microphone hang-up input, and

control the 'channel monitoring' function in the TS-64WDS. When the Hang-up Input is floating or

above ground potential (mic is off-hook), the TS-64WDS will be in the monitor mode, and will

unmute the receiver audio. If this input is grounded, such as through a mic hang-up button, the

receiver audio will be muted. The audio path in the receiver will only be enabled upon receipt of

the correct CTCSS code. Connect the Hang-up Input to the microphone hookswitch connection

on the microphone jack.

If the H/B jumper pad has a "solder bridge" across it, the Hang-up/Busy Input will operate as a

Busy Input, and disable the transmit function in the TS-64WDS if the operator tries to transmit

when the channel is busy. However, if the TS-64WDS is currently decoding a CTCSS tone, and

the channel is busy, the transmit function will be allowed. Connect the Busy Input to a location in

the receiver that will provide an indication as to the status of the channel. The usual location is

the squelch switch transistor in the receiver. A busy channel is defined as a logic high, or a

voltage level greater that 1.5VDC. Please note that this is the same connection point as the RX

Mute Output. The Busy Input must be connected AHEAD of the RX Mute Output with a diode in

series, and the cathode of the diode connected to the Busy Input. This arrangement will isolate

the Busy Input from being controlled by the Receive Audio Mute Output.

ALERT TONE OUTPUT (ORANGE / BLACK) (Pin 5)

The Alert Tone Output (Busy Tone Output) generates a busy tone under two conditions. First, if

the programmed interval for the Transmit Time-out-timer is exceeded, the Busy Tone Output will

generate the busy tone until the microphone PTT switch is released. Second, if the Hang-up/

Busy Input is configured for Busy operation and the PTT switch is pressed while the channel is

busy, the Busy Tone Output will generate the busy tone until the microphone PTT switch is

released.

This Output can be connected to the input of the audio amplifier stage in the receiver. The busy

tone will then be heard in the speaker of the radio set.

3.1 ADUSTMENT

The CTCSS Output Adjustment, VR-1, is the only adjustment required on the TS-64WDS. This

control sets the level of the CTCSS Output. A very small slotted alignment tool should be used to

make the adjustment on the TS-64WDS PCB. To adjust the CTCSS Output level to the correct

deviation, key the PTT switch on the microphone, and while watching a deviation scope tuned to

the transmit output frequency, carefully adjust the CTCSS Output Adjustment. The deviation

level of the CTCSS Output should be set to 0.5kHz for wide-band or 0.25kHz or less for narrow-

band.

A deviation scope on a service monitor is best for adjusting the CTCSS deviation. The CTCSS

waveform on the scope will appear as a sine wave. If the CTCSS signal appears distorted, this

indicates that the interface connection is incorrect, and must be changed to a more suitable

location.

4.0 SPECIFICATIONS

Number of Tones

Tone Accuracy

Better than 0.05Hz

Tone Stability

Crystal controlled

Encode Output Z

2.2K ohms AC coupled

Encode Output Level

Adjustable from 0v to 3.0V

Discriminator Input Z

60K ohms AC coupled

Decode Input Level

5 Mv minimum

Signal to Noise

Better than 4dB Sinad

Decode Time

150 ms. Nominal

Fade Time

350 ms. Nominal

Squelch Tail Elimination

160 ms reverse phase burst

CTCSS Tone Programming

By 6 position dip switch

RX Mute Outputs

FETs

TX PTT Output

FET

Receive Audio Filter

3 pole 330Hz High-pass filter

Busy Tone Output

5V pk-pk at 1000Hz

Temperature Range

-30°C to + 65°C

Supply Requirements

6.0 to 20.0 VDC @11 Ma.

Size

0.9" x 1.8" x 0.19"

REV. 041718JM