4 input wiring 3.2 user input wiring, 3 setpoint (output) wiring, 5 serial wiring – Red Lion LDSG User Manual

4

3.4 INPUT WIRING

3.2 USER INPUT WIRING

CAUTION: Analog common is NOT isolated from user input

common. In order to preserve the safety of the meter application,

the DC common must be suitably isolated from hazardous live

earth referenced voltage; or input common must be at protective

earth ground potential. If not, hazardous voltage may be present

at the User Input and Input Common terminals. Appropriate

considerations must then be given to the potential of the input

common with respect to earth ground. Always connect the

analog signal common to terminal 4 (-EXC).

The User Input is located: LD2 - left side, LD4 - right side

Terminal 1: User Comm

Terminal 2: User 1

Terminal 3: User 2

Terminal 4: User 3

3.3 SETPOINT (OUTPUT) WIRING

The setpoint relays use a six position terminal block (TBB) located inside the

(right side).

Terminal 1: NC 1

Terminal 2: NO 1

Terminal 3: Relay 1 Common

Terminal 4: NC 2

Terminal 5: NO 2

Terminal 6: Relay 2 Common

USER

*

USER COMM

1

TBD

USER

USER COMM

1

*

TBD

+

-

1 N.C. 1

COMM 1

3

2 N.O. 1

TBB

4

5

6

N.C. 2

N.O. 2

COMM 2

Sinking Logic

Sourcing Logic

2

1

4

3

+EXC

+IN

-IN

-EXC

TBC

EXC+

EXC-

SIG-

SIG+

RS485 Communications

The RS485 communication standard allows the connection of up to 32 devices

on a single pair of wires, distances up to 4,000 ft. and data rates as high as 19.2K

baud. The same pair of wires is used to both transmit and receive data. RS485

is therefore always half-duplex, that is, data cannot be received and transmitted

simultaneously.

RS232 Communications

RS232 is intended to allow two devices to communicate over distances up to

50 feet. Data Terminal Equipment (DTE) transmits data on the Transmitted Data

(TXD) line and receives data on the Received Data (RXD) line. Data Computer

Equipment (DCE) receives data on the TXD line and transmits data on the RXD

line. The LD emulates a DTE. If the other device connected to the meter also

emulates a DTE, the TXD and RXD lines must be interchanged for

communications to take place. This is known as a null modem connection. Most

printers emulate a DCE device while most computers emulate a DTE device.

Some devices cannot accept more than two or three characters in succession

without a pause in between. In these cases, the meter employs a busy function.

As the meter begins to transmit data, the RXD line (RS232) is monitored to

determine if the receiving device is “busy”. The receiving device asserts that it

is busy by setting the RXD line to a space condition (logic 0). The meter then

suspends transmission until the RXD line is released by the receiving device.

5

LD METER

RECEIVING DEVICE

+3.3V

4

47K

47K

3

B (-)

A (+)

COMM.*

Transmit

Enable

* OPTIONAL

Terminal Block Connection Figure (RS485)

1

2

3

Terminal Block Connection Figure (RS232)

3.5 SERIAL WIRING

TBE

A

COMM

RXD

TXD

4

2
3

1

B

5

232

485

The serial connections are made via terminal block TBE located inside the

unit on the left side for the LD2 and on the right side for the LD4.

Before connecting signal wires, the Range and Excitation Jumpers should be

verified for proper position.

* For single ended input, tie terminal 3 (-IN) to Terminal 4 (-EXC).