2 load cells, 3 serial communications and digital inputs, Load cells – Rice Lake IQ Plus 355 Installation Manual V1.17 User Manual

6

IQ plus 355 Installation Manual

2.3.2

Load Cells

To attach cable from a load cell or junction box,

remove connector J1 from the board. The connector

plugs into a header on the board as shown in

Figure 2-6 on page 10.

NOTE: Early versions of the IQ plus 355 CPU board used
a 7-pin load cell connector. The 7-pin connector is not
compatible with the current 6-pin header.

Wire the load cell cable from the load cell or junction

box to connector J1 as shown in Table 2-1. If using

6-wire load cell cable (with sense wires), remove

jumpers JP1 and JP2 before reinstalling connector J1

(see Figure 2-3). For 4-wire installation, leave

jumpers JP1 and JP2 on.
When connections are complete, reinstall connector J1

onto the header so that it snaps securely into place.

Use two cable ties to secure the load cell cable to the

inside of the enclosure.

Setting the Load Cell Compensation Jumper

The load cell compensation jumper (above the A/D

converter location on the CPU board; see Figure 2-3

on page 5) must be set ON for load cells with

unbalanced bridges. The compensation jumper has the

effect of lowering the positive excitation voltage.

Uncompensated unbalanced load cells can cause

instability or calibration errors.
For RL1040 and RL1042 load cells, set the

compensation jumper as follows:

• RL1040 load cells: jumper OFF

• RL1042 load cells: jumper ON

For other load cell types, use the following procedure

to determine the correct jumper position;

1. Disconnect load cell from indicator and use

an ohmmeter to measure the following:

• +EXC to +SIG, +EXC to –SIG

• –EXC to +SIG, –EXC to –SIG

Measured values between the excitation line

and each of the signal lines should be within

2–3

.

2. If the +EXC measurements are

 5% larger

than the –EXC measurements, set the

compensation jumper in the ON position. If

the +EXC measurements are < 5% greater (or

are less) than the –EXC measurements, set the

jumper in the OFF position.

2.3.3

Serial Communications and Digital Inputs

To attach serial communications and digital input

cables, remove connector J4 from the board.

Connector J4 provides connections for the EDP

(Electronic Data Processing) port, printer port, and

two digital inputs. Connect communications and

digital input cables to connector J4 as shown in

Table 2-2.
Once cables are attached, reconnect J4 to the header

on the board (see Figure 2-6 on page 10). Use cable

ties to secure serial and digital input cables to the

inside of the enclosure.
The EDP port supports RS-232 communications only;

the printer port provides either active 20 mA output or

RS-232 transmission. Both ports are configured using

the SERIAL menu. See Section 3.0 on page 12 for

configuration information.
Digital inputs can be set to provide several indicator

functions, including all keypad functions. The inputs

are active (on) with low voltage (0 VDC) and can be

driven by TTL or 5V logic without additional

hardware. Use the DIG IN menu to configure the

digital inputs.

J1 Pin

Function

1

+SIG

2

–SIG

3

+SENSE

4

–SENSE

5

+EXC

6

–EXC

NOTES:

• Use grounding procedure described in Section 2.3.1

on page 5.

• For 6-wire connections, remove jumpers JP1 and JP2.

Table 2-1. J1 Pin Assignments

Port

J4 Pin

Label

Function

EDP Port

1

EDPT

RS-232 TxD

2

GND

RS-232 Ground /
–20 mA OUT

3

EDPR

RS-232 RxD

Printer Port

4

PRMA

+20 mA OUT

5

PRT

RS-232 TxD

Digital Inputs

6

IN2

Digital Input 2

7

IN1

Digital Input 1

Table 2-2. J4 Pin Assignments