Charging ahead – Rogue Engineering 1950-251 User Manual

Charging Ahead

Rogue Engineering Inc.

3860 S. Jason Street

Englewood Colorado 80110

1-800-364-0659 (Toll Free) 1-303-734-0706 (Phone)

1-303-734-0517 (Fax) www.rogue-engr.com

[email protected] or [email protected]

PORT FUNCTION

PINS

PIN DESCRIPTION

BATT

Battery Connector

(6-30V)

-

Negative battery terminal

+

Positive battery terminal

D-OUT*

Digital Output (open collector,

optically isolated) Indicates

communication errors

-

Negative digital output terminal

+

Positive digital output terminal

COM1

MODBUS Master 1 port

(9600bps, 1 start,8 data, No

parity,1 stop)

RX

RS-232 Reception line

TX

RS-232 Transmission line

GND

Ground

LOI RX

(Do not Use)

Local Operator Interface reception line

LOI TX

(Do not Use)

Local Operator Interface transmission

line

COM2

MODBUS Master 2 port

(9600bps, 1 start,8 data, No

parity,1 stop)

RX

RS-232 Reception line

TX

RS-232 Transmission line

GND

Ground

A

RS-485 A line

B

RS-485 B line

COM3

MODBUS Master 3 port

(9600bps, 1 start,8 data, No

parity,1 stop)

RX

RS-232 Reception line

TX

RS-232 Transmission line

GND

Ground

A

RS-485 A line

B

RS-485 B line

COM4

MODBUS Slave port

(9600bps, 1 start,8 data, No

parity,1 stop)

RX

RS-232 Reception line

TX

RS-232 Transmission line

GND

Ground

A

RS-485 A line

B

RS-485 B line

INTRODUCTION

The Modbus Gateway is a communication device that enables up to 3 Modbus

masters, two via RS-232 or RS-485 and one via RS-232, to communicate and

share a single Modbus slave device via RS-232 or RS-485.

SETUP - Wiring

QUICKSTART

1. Connect battery terminal as indicated on Wiring Diagram

2. Connect slave device on COM4 on the appropriate interface

3. Connect master devices on COM1-COM3 on the appropriate interface

ELECTRICAL / ENVIRONMENTAL SPECIFICATIONS

• Input Voltage (Bat+ to Bat-): 6V-30V

• Power Consumption: 85mW typical (7mA at 12V input)

• Ambient Temperature: -40 to 60 °C

• Pluggable Connectors: 12AWG max.

Time

master-gateway

= 10000 x (Character Count) (mS)

9600

The transmission time from the Modbus gateway to the device can be estimated using the

following formula:

Time

gateway-slave

= 10000 x (Character Count) (mS)

9600

The total transmission time from master to device can be estimated using the following

formula:

Time

master-slave

= 2 x Time

master-gateway

+ 2 x Time

gateway-slave

(mS)

OR

Time

master-slave

= 40000 x (Character Count) (mS)

9600

Finally, taking into account there is likelihood that there may be at least two messages

buffered from the other two masters, the minimum timeout period should be

Timeout

master

> 3 x Time

master-slave

(mS)

APPENDIX
Estimating Modbus Serial Message Timing
It is crucial to estimate the transmission time for Modbus messages in order

to set proper communication. For the Modbus Gateway settings (9600 baud,

1-8-N-1) the transmission time from a master to the Modbus Gateway can be

estimated using the following formula:

*Requires external pull-up resistor

Also, please note that the Modbus Gateway has incorporated a 4 second timeout while

waiting for a response from the slave device. This timeout should be taken into account

within the master timeout interval. If not taken into account it will result in the loss of

messages sent during the 4 second period.