BREAKOUT II CABLE ADAPTOR Model 422BOC

422BOC2495 - pg. 1/3
BREAKOUT II CABLE ADAPTOR
Model 422BOC
Document No. 422BOC2495
GENERAL
The Model 422BOC Breakout Adaptor permits computers with serial line
analyzer software to test RS-422 and RS-485 networks. The adaptor can be used
with four-wire full-duplex RS-422/485 networks or two-wire half-duplex RS-485
networks. Figure 1 is a block diagram of the adaptor.
SOFTWARE COMPATIBILITY
The Model 422BOC Breakout adaptor can be used with any
serial line analyzer software on any computer that uses two serial
ports to monitor full-duplex communications.
The adapter converts two balanced RS-422/485 data lines to
RS-232 for input to two ports. It converts one output line (Port 1)
from RS-232 to RS-485 for transmitting data to a network.
CONNECTION TO AN RS-422 FOUR WIRE NETWORK
Figure 2 illustrates how to connect the 422BOC to a RS-422
four wire network. Do not connect the transmit driver to the
network unless you are transmitting data to the network. This
connection will cause the adaptor to use more power. If data is
transmitted to the network, you must select which part of the
network is to be connected. You must make RTS high on Port 1
before you transmit data to the network. You must make RTS low
on Port 1 when you have finished transmitting data to the network.
CONNECTION TO AN RS-485 TWO WIRE NETWORK
Figure 3 illustrates how to connect the 422BOC to a two-wire RS-485 network. Do not connect the transmit driver to the
network unless you are transmitting data to the network. This connection will cause the adaptor to use more power. You must
make RTS high on Port 1 before you transmit data to the network. You must make RTS low on Port 1 when you have finished
transmitting data to the network. If you are only monitoring the network, disconnect the transmit driver and leave RTS in the active
or high state.
POWERING THE 422BOC FROM SERIAL COMPUTER PORTS
Power is obtained from the computer ports connected to the 422BOC. It is important that at least two handshake lines be left
in the high or active state at all times. If you are using Breakout II software, you can force all handshake lines high by following
these two steps.
1) Select Port 2 as the primary port and configure the computer in the Interactive mode. Now set both DTR and RTS
high on Port 2.
2) Select Port 1 as the primary port and configure the computer to the Interactive mode. Now set both DTR and RTS
high on Port 1.
3) Change the computer to the desired analysis mode, either Monitor or Interactive . If you select the Monitor mode
the software will not change the state of DTR or RTS on Port 2 or Port 1. If you are in the Interactive mode and you
are operating with Port 1 as the Primary port, you can manually change the state of DTR and RTS. Since DTR is only
used for power, leave it in the high or active state. You can now change the state of RTS to what is required to send
data to your RS-485 network.
� 1993 B&B Electronics - June 1993
422BOC2495 - pg. 2/3
POWERING THE 422BOC WHEN USING A LOW POWER RS-562 PORT
An RS-562 port will supply only about 3 volts and will not have enough power for the adaptor. When using this type of port,
connect an external +12 VDC power supply to the terminal block marked +12VDC IN (9). Connect the ground connection of the
power supply to the terminal marked SIGNAL GROUND (8).
NOTE: 1) MAKE CONNECTIONS FROM TRANSMIT
NOTE: 1) MAKE CONNECTIONS FROM TRANSMIT DRIVER ONLY WHEN SENDING DATA TO
DRIVER ONLY WHEN SENDING DATA TO THE SYSTEM. ALWAYS MAKE RTS HIGH
THE SYSTEM. ALWAYS MAKE RTS HIGH
ON PORT 1 BEFORE SENDING DATA TO
ON PORT 1 BEFORE SENDING DATA TO
THE NETWORK. ALWAYS MAKE RTS LOW
THE NETWORK. ALWAYS MAKE RTS LOW
ON PORT 1 WHEN FINNISHED
ON PORT 1 WHEN FINNISHED
SENDING DATA TO THE NETWORK.
SENDING DATA TO THE NETWORK.
2) WHEN POSSIBLE, MAKE RTS AND DTR HIGH
2) WHEN POSSIBLE, MAKE RTS AND DTR HIGH
(ACTIVE) ON BOTH PORTS.
(ACTIVE) ON BOTH PORTS.
PORT 2 PORT 1
PORT 2 PORT 1
(NOTE 2)
(NOTE 2)
(NOTE 2) (NOTE 2)
PORT 2 PORT 1
PORT 2 PORT 1
RD(A)
1 RD(A)
1
RD(B)
2 RD(B)
TD(A)
2
3 TD(A)
TD(B) 3
(NOTE 1)
4
TD(B)
PROTECTIVE
GROUND 4
5 PROTECTIVE
RD(A) GROUND
5
6
RD(A)
RD(B)
6
7
RD(B)
SIGNAL
GROUND 7
8
SIGNAL
+12VDC IN
GROUND
9 8
+12VDC IN
9
MODEL 422BOC
MODEL 422BOC
CONNECTION TO FOUR WIRE RS-422/RS-485 SYSTEM
CONNECTION TO TWO WIRE RS-485 SYSTEM
� 1993 B&B Electronics - June 1993
GWG
ENABLE
RX
TX
G
R
GWG
100
100
B
1/2 W
1/2 W
1/2 W
1/2 W
A
B
A
100
1/2 W
1/2 W
G
R
D
Rt
B
B
A
A
A
A
B
B
(NOTE 1)
Generator
Receiver
Circuit ground or
circuit common
Protective ground or
frame ground
power system ground
G
G
R
GWG
Green wire ground or
B
B
B
A
A
A
A
Receiver
Circuit ground or circuit common
Green wire ground or power system ground
Protective ground or frame ground
Rt
Rt
D
Driver
R
GWG
R
B
G
D
B
B
A
A
B
B
A
A
100
100
1/2 W
1/2 W
1/2 W
1/2 W
R
G
G
GWG
GWG
100
100
100
100
1/2 W
1/2 W
1/2 W
1/2 W
1/2 W
1/2 W
1/2 W
1/2 W
RX
TX
ENABLE
ENABLE
GWG
GWG
422BOC2495 - pg. 3/3
� 1993 B&B Electronics - June 1993

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