Doc #: 102001UA
Part #: 07M3060/V24-A
B
DIGITAL BRIDGE
3060/V24
(CTS MD-V.24/TCB)
INSTALLATION AND OPERATIONS MANUAL
January 4, 2000
An ISO-9001
Certified Company
Copyright © 2000 Patton Electronics Co., All Rights Reserved.
INSTALLATION AND OPERATIONS MANUAL
PATTON ELECTRONICS CO.
3060/V24
102001UA
EMISSION REQUIREMENTS
FCC CLASS A
Warning: Changes or modifications to this unit not expressly approved by the party
responsible for compliance could void the user’s authority to operate the equipment.
NOTE: This equipment has been tested and found to comply with the limits for a Class A
digital device, pursuant to Part 15 of FCC rules. These limits are designed to provide
reasonable protection against harmful interference when the equipment is operated in a
commercial environment. This equipment generates, uses, and can radiate radio frequency
energy and, if not installed and used in accordance with the instruction manual, may cause
harmful interference to radio communications. Operation of this equipment in a residential
area is likely to cause harmful interference in which case the user will be required to correct
the interference at his own expence.
CANADIAN EMISSIONS
This digital apparatus does not exceed the Class A limits for noise emmissions from a
digital apparatus set out in the Radio Interference Regulations of the Canadian Department
of Communications.
Le present appareil numerique n’emet pas de bruits redioelectriques depassant les limites
applicables aux appareils numeriques de la Class A prescites dans le Reglement sur le
brouillage redioelectrique edicte par le ministere des Communications du Canada.
ii
PATTON ELECTRONICS CO.
3060/V24
INSTALLATION AND OPERATIONS MANUAL
102001UA
Contents
CHAPTER 1 - OPERATION
Channel Clocking............................................................................................................................... 1-1
Fallback Clocking............................................................................................................................... 1-1
Channel Interface .............................................................................................................................. 1-1
Anti-streaming.................................................................................................................................... 1-2
Channel Selection Modes ................................................................................................................. 1-3
Channel Tail Circuits ......................................................................................................................... 1-4
Interface Connections ....................................................................................................................... 1-4
Front Panel LEDs .............................................................................................................................. 1-4
Channel Enable / Disable Switches .................................................................................................. 1-4
Power Supply..................................................................................................................................... 1-4
CHAPTER 2 - SETUP AND INSTALLATION
Power Connection ............................................................................................................................. 2-1
Factory Configuration Switch Settings .............................................................................................. 2-1
Disassembly ...................................................................................................................................... 2-2
Installation.......................................................................................................................................... 2-2
Equipment Grounding (SW21-8)....................................................................................................... 2-2
RTS To CTS Delay (SW22-1,2,3) ..................................................................................................... 2-3
Anti-Streaming (SW21-1,2,3) ............................................................................................................ 2-3
Receive Data Mode (SW23-4) .......................................................................................................... 2-3
Control Turn-Off Delay in "DATA" Switching Mode (SW23-1,2) ...................................................... 2-4
Switch on Data / Control (SW25-1,2,3,4,5,6)....................................................................................2-4
Internal Baud Rates (SW22-4,5,6,7) ................................................................................................. 2-4
Fallback Clock Enable (SW-23-5) ..................................................................................................... 2-5
Fallback Clocking From Sub-Channel 6 (SW22-4,5,6)..................................................................... 2-5
Fallback Mode Selection (SW23-6)................................................................................................... 2-5
TX Clock Source Selection (SW21-4,5,6).........................................................................................2-5
TX Clock Pin Selection (SW21-7) ..................................................................................................... 2-5
RX Clock Source Selection (SW24-1,2,3) ........................................................................................ 2-6
Tail Circuit Buffers (SW22-8) ............................................................................................................ 2-6
Port DCE/DTE Selection (SW7 thru SW20) ..................................................................................... 2-6
Test Voltage Enable Pins 9 & 10 (JP4 & JP5) .................................................................................. 2-7
DTR / DSR Forced Active (JP6 thru JP12) ....................................................................................... 2-7
FACTORY Test Jumpers (JP1, JP2 and JP3) .................................................................................. 2-8
APPENDIX
Typical Application............................................................................................................................ A-1
Typical Tail Circuit Configuration ..................................................................................................... A-1
Interface Pins Supported .................................................................................................................. A-1
Master DTE / Sub-Channel DTE Interface Flow Diagram ............................................................... A-2
Master DTE / Sub-Channel DCE Interface Flow Diagram .............................................................. A-2
Master DCE / Sub-Channel DTE Interface Flow Diagram .............................................................. A-3
Master DCE / Sub-Channel DCE Interface Flow Diagram .............................................................. A-3
TECHNICAL SPECIFICATIONS ...................................................................................................... A-4
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PATTON ELECTRONICS CO.
3060/V24
INSTALLATION AND OPERATIONS MANUAL
102001UA
CHAPTER 1 - OPERATION
The Patton 3060/V24 (MD-V.24/TCB) is a network enhancement accessory intended for high
speed synchronous or asynchronous RS-232 modem, or port sharing applications. The 3060/
V24 (MD-V.24/TCB) allows for immediate expansion of a system without the requirement of
additional communication lines. The 3060/V24 (MD-V.24/TCB) allows any combination of up
to six RS-232 DCE or DTE devices to share a single RS-232 DCE or DTE high speed link in
a point-to-point or multi-point polled network.
Channel Clocking
The Patton 3060/V24 (MD-V.24/TCB) is protocol transparent and operates in synchronous
and asynchronous environments at data rates up to 76,800bps, depending on cable length
and attached equipment. Clocking can be derived from the Master Port clock, (pins 15 or 24
for TXC and 17 for RXC), the internal clock generator or any Sub-Channel clock, (pins 15 or
24 for TXC and 17 for RXC).
Fallback Clocking
In the event of loss of an externally provided clock or optionally Sub-Channel 1 DCD becoming
inactive, the 3060/V24 (MD-V.24/TCB) has the ability to automatically fall back to the
predetermined internal baud rate clock or the Sub-Channel 6 RX Clock (pin 17).
Channel Interface
The 3060/V24 (MD-V.24/TCB) has seven DB-25 female connectors located on the rear of the
unit. Each port is DCE/DTE selectable, which eliminates the need for crossover cables. DSR
or DTR can additionally be forced to the active state individually on each Sub-Channel by
Jumpercontrol.
OPERATION
1-1
PATTON ELECTRONICS CO.
3060/V24
INSTALLATION AND OPERATIONS MANUAL
102001UA
Anti-streaming
A typical problem often encountered is a “STREAMING” remote terminal. The streaming
problem can tie up an entire circuit until the offending device has recovered or is powered
down. A streaming condition occurs when a Sub-Channel remains active, disrupting the
polling sequence. The 3060/V24 (MD-V.24/TCB) provides two user selectable modes of
controlling a streaming condition, an automatic anti-streaming Abort Timer with eight
selectable block lengths and a setting to disable anti-streaming for large data block transfers,
and a manual Operator Control mode (front panel push button switch).
Automatic Anti-Streaming - Automatic Anti-streaming will block the asserted control signal
from the Sub-Channel Port, releasing the 3060/V24 (MD-V.24/TCB) to accept requests from
any other Sub-Channel that has not been locked out due to a streaming condition. When a
Sub-Channel is locked out for streaming, a visual indication, by Sub-Channel, is provided on
the front panel. The Sub-Channel will no longer receive data or CTS from the Master Port.
Any data sent to the Master Port by the streaming device will be lost. Once a Sub-Channel is
locked out due to streaming, the Sub-Channel will remain locked out until the attached device
removes the streaming condition. If RTS is held active, RTS must become inactive, if
continuous data transitions have triggered the Anti-Stream logic, the transitions must stop
before the 3060/V24 (MD-V.24/TCB) will clear the Anti-Stream logic to that Sub-Channel.
Removing the Sub-Channel via the front panel disable switch will not clear the Anti-stream
logic for a Sub-Channel once it has been activated.
Manual Anti-Stream - A streaming condition caused by one of the attached terminals can be
quickly corrected by the Patton 3060/V24 (MD-V.24/TCB) via the associated front panel
locking switches. A switch is provided for each Sub-Channel and permits the rapid removal of
a streaming terminal without having to disconnect any cables or power down the offending
terminal. Terminals may be selectively removed for self-test and maintenance without affecting
the remaining Sub-Channels. Once the streaming condition has been corrected, the front
panel switch is simply depressed to the locked (Enable) position (Green indicator ON) to re-
establish normal operation. Removing a Sub-Channel with the front panel switch will block
data from the Sub-Channel going to the Master Port but will not block data going from the
Master Port to the Sub-Channel as the Automatic Anti-Stream option did.
OPERATION
1-2
PATTON ELECTRONICS CO.
3060/V24
INSTALLATION AND OPERATIONS MANUAL
102001UA
Channel Selection Modes
The Patton 3060/V24 (MD-V.24/TCB) provides two selectable Sub-Channel service modes of
operation, the Scanning Mode and Priority Mode. Depending on system requirements, either
mode may be selected by internal DIP switch settings. Both modes switch on activity from the
Sub-Channel.
In the Scanning Mode the Patton 3060/V24 (MD-V.24/TCB) scans each Sub-Channel, in
sequence, beginning with Sub-Channel 1. This rotational sequence is repeated continually
with each attached Sub-Channel having equal access to the communications link. When data
or control lines from a Sub-Channel become active that Sub-Channel is switched through to
the master port by the 3060/V24 (MD-V.24/TCB). All remaining Sub-Channels are locked out
until the first device becomes inactive. When the Sub-Channel device becomes inactive, the
3060/V24 (MD-V.24/TCB) will resume scanning the Sub-Channels for another active signal.
When configured for Priority Mode operation, the Patton 3060/V24 (MD-V.24/TCB) monitors
all Sub-Channels simultaneously with Sub-Channel 1 having the highest priority. When a Sub-
Channel becomes inactive, the 3060/V24 (MD-V.24/TCB) will automatically default to the
highestpriority(lowestnumber)Sub-Channelwithactivity.
Contention for the Master port is accomplished by asserting RTS (Request to Send) if the
Sub-Port is configured as a DCE, DCD (Data Carrier Detect) if the Sub-Port is configured as
a DTE or Data Transitions from the attached Sub-Channel devices in either configuration. The
active interface lead, RTS or DCD, as well as selection of contention mode, “Data Transitions”
or “Interface Lead” activation, can be selected on an individual basis for each Sub-Channel.
Once a Sub-Channel asserts an active control signal the control signal will be passed through
to the Master Port, depending on DTE / DCE configuration of the Sub-Channel and Master
Port. This control will be passed without delays. If the Master Port is configured as a DTE the
signal will be passed as RTS. The CTS returned to the Master will have an optional delay
added before the signal is returned to the Sub-Channel port.
Port Enable / Disable, front panel switches must be pushed in (GREEN indication) for a Sub-
Channel to access the Master Port regardless of the mode of operation selected.
OPERATION
1-3
PATTON ELECTRONICS CO.
3060/V24
INSTALLATION AND OPERATIONS MANUAL
102001UA
Channel Tail Circuits
A buffer is built into the unit for tail circuit (DCE to DCE) applications. An 8 bit centered ring
buffer is used to correct the clock phasing errors generated between the Modem on the
Master Port and the Sub-Channel port for the data transferred from the Sub-Channel to the
Master Port. If the unit is operated in an asynchronous environment the buffer must be
bypassed. This is accomplished by moving the SYNC/ASYNC switch to ASYNC.
Interface Connections
All connections are made via industry standard EIA RS-232 DB-25 female connectors located
on the rear of the unit. The Following interface leads are implemented, Chassis (1), TXD (2),
RXD (3), RTS (4), CTS (5), DSR (6), Sig Gnd (7), DCD (8), Plus Unreg (9), Minus Unreg (10),
TXC (15), RXC (17), DTR (20), XTXC (24). Pins 9 & 10 can be disabled by Jumpers on the
PCB.
Front Panel LEDs
Front panel LEDs are provided to indicate power is applied, RXD and TXD activity from the
Master Port, Sub-Channel activity of each individual Port, Anti-Stream condition of each Sub-
Channel and an indication of clock Fallback condition.
Channel Enable / Disable Switches
Front panel switches allow operator intervention to remove an individual Sub-Channel from
accessing the Master Port. Positive latching type switches are provided for each Sub-
Channel port for isolating or removing a streaming terminal. The Sub-Channel is activated by
pushing the switch until it is in the “IN” position. The switch will indicate GREEN in color. To
disable a Sub-Channel push the switch until it locks in the “OUT” position, the switch will
indicate BLACK in color. Disabling a Sub-Channel with the front panel does not prevent the
Sub-Channel from receiving data from the Master Port only from sending data to the Master
Port.
Power Supply
A linear power supply is located internally, an external 110/220VA switch is located on the rear
of the unit. If chassis ground and signal ground need to be tied together this can also be
accomplished by switch selection. The unit is Rackmountable for 19" or 23" cabinets, by
ordering an optional Rackmount Kit. Safety approvals granted are UL, CSA and TÜV as well
as emission approval for FCC Class A.
OPERATION
1-4
PATTON ELECTRONICS CO.
3060/V24
INSTALLATION AND OPERATIONS MANUAL
102001UA
Caution, Disconnect the POWER Before Removing The Cover
Vorsicht, Befor Deckung Abnehmen Mach Strom Zu.
CHAPTER 2 - SETUP AND INSTALLATION
Power Connection
Before connecting the 3060/V24 (CTS MD-V.24/TCB) to a AC power source the top cover
must be installed and secured with the supplied #8-32 screws. The unit is supplied with a 110/
220VA voltage switch, turn the switch with a
110 / 220VA Switch
coin or screw driver to the appropriate
Fuse Drawer
voltage for your country. EXAMPLE: In the
W AR N IN G : F OR C O N TIN U E D PR O T EC TIO N
110
AG AINS T RISK O F FIRE, REPLAC E O N LY
W IT H S AM E TYP E A N D R AT IN G F USE.
United States of America; set to 110VA.
The unit is supplied with a IEC power
PORT
4
MASTER DTE/ DCE
connector next to the voltage select
switch, plug the power cord into the
connector until it is firmly seated. You
may now connect the power cord into
yourACoutlet.
IEC Power Connector
Factory Configuration Switch Settings
The 3060/V24 (CTS MD-V.24/TCB) is configured prior to shipment with the switches set to the
followingdefaultpositions:
Switch 21 - 1,2,3 and 8 to OFF, 4, 5, 6 and 7 to ON.
Anti-Stream timer = 2 M bits
TX Clock Source = Master pin 15
Chassis Ground not connected to Signal Ground
Switch 22 - 4 and 5 to OFF, 1, 2, 3, 6, 7 and 8 to ON.
CTS Delay = 0
Internal Baud Rate = 9600
Sync Mode
Switch 23 - 1, 2, 3 and 4 to OFF, 5 and 6 to ON.
No Data Time Out = 2048 bits
Anti-Stream = Disabled
Broadcast Data to Sub-Channels
Fallback Clock = Disabled
Fallback Clock Source = Data Transitions
SETUP & INSTALLATION
2-1
PATTON ELECTRONICS CO.
3060/V24
INSTALLATION AND OPERATIONS MANUAL
102001UA
Switch 24 - All to ON
RX Clock Source = Master
Contention Mode = Priority
Switch 25 - All to ON
Sub-ChannelActivityIndicatedbyInterfaceControl(RTS/DCD)
If the system application requires one or more of the default settings to be changed, it will be
necessary to remove the top cover of the enclosure to access and change the DIP switches
located on the printed circuit board.
Disassembly
Remove the top cover by removing the phillips head screws located on the left and right sides
of the 3060/V24 (CTS MD-V.24/TCB). DTE/DCE switches SW7 through SW20, interface
Jumpers J4 through J12 and configuration switches SW21 through SW25 are located on the
PCB as indicated on the strapping guide in the Appendix of this manual. After the switch
selection activity is completed, re-install the top cover BEFORE connecting to a AC
power source.
Installation
Select an appropriate location accessible to and within six feet of an AC power outlet, the
outlet must have a ground pin receptacle for product warranty. The DCE-to-DTE cabling
between each attached device and the 3060/V24 (CTS MD-V.24/TCB) should be “Straight
Through”, shielded and terminated with male connectors. Sub-Channels are marked PORT 1
through PORT 6, the Master Port is marked, MASTER DCE/DTE. If any terminal has a priority
service mode, ensure it is connected to the port connector designated "PORT 1" on the rear
panel of the 3060/V24 (CTS MD-V.24/TCB). Secure other terminals or Modems to be
serviced to the remaining “PORT” connectors. Connect the MODEM or TERMINAL to the
connector designated “MASTER DTE/DCE”.
Equipment Grounding (SW21-8)
Switch SW21-8 provides for grounding interconnection in those systems requiring a
connection between (Frame Ground) and (Signal Ground). Connect ONLY if required.
SETUP & INSTALLATION
2-2
PATTON ELECTRONICS CO.
3060/V24
INSTALLATION AND OPERATIONS MANUAL
102001UA
RTS To CTS Delay (SW22-1,2,3)
If a CTS delay is desired, set SW22-1, 2 and 3 to the required value as indicated below.
SW22-1 SW22-2 SW22-3
Time
No Delay
1mS
ON
OFF
ON
ON
ON
ON
ON
OFF
OFF
ON
ON
2mS
OFF
ON
ON
4mS
OFF
OFF
OFF
OFF
9mS
OFF
ON
ON
18mS
36mS
72mS
OFF
OFF
OFF
Anti-Streaming (SW21-1,2,3)
The maximum data block size is user selectable via switch SW21- 1, 2 and 3. As shown
below eight block sizes are provided to the user. To disable anti-streaming set SW23-3 to the
OFF position. The maximum block size is normally defined at the time of installation.
SW21-1 SW21-2 SW21-3 CLOCKS
ON
OFF
ON
ON
ON
ON
ON
1024
2048
4096
16 K
OFF
OFF
ON
ON
OFF
ON
ON
OFF
OFF
OFF
OFF
64 K
OFF
ON
ON
256 K
1 MEG
2 MEG
OFF
OFF
OFF
Receive Data Mode (SW23-4)
Setting switch SW23-4 to ON sets the 3060/V24 (CTS MD-V.24/TCB) into the Gated Mode.
Only the Sub-Channel that is currently active will receive the data from the master port. Setting
position 4 to OFF enables the Broadcast mode. Receive Data from the Master Port is sent to
allSub-Channels.
SETUP & INSTALLATION
2-3
PATTON ELECTRONICS CO.
3060/V24
INSTALLATION AND OPERATIONS MANUAL
102001UA
Control Turn-Off Delay in "DATA" Switching Mode (SW23-1,2)
When configured to switch on DATA, switch SW23-1 and 2 set the Sub-Channel release time
in clocks. The value selected is the number of clocks at the current baud rate that must occur
without any data transitions on the Sub-Channel to indicate that Sub-Channel has completed
its transmission and the 3060/V24 (CTS MD-V.24/TCB) can resume servicing the other Sub-
Channels. The following table should be used to set this time period.
SW23-1 SW23-2 CLOCKS
ON
ON
ON
OFF
ON
16
64
OFF
OFF
256
2048
OFF
Switch on Data / Control (SW25-1,2,3,4,5,6)
Each sub-channel is independently selectable for switch on data or switch on an active
interface control lead. Set SW25 pos 1 to OFF if sub-channel 1 switch on Data is required.
Set pos 1 to ON if switch on interface control lead is desired. Position 2 thru 6 are associated
withsub-channels2thru6.
Internal Baud Rates (SW22-4,5,6,7)
Switch SW22-4, 5, 6 and 7 select the master clock rate when Internal Clock Source is selected
on TX Clock Source or RX Clock Source. In addition the Fallback clock rate is also selected
with this option. When Fallback clocking is required, the RX Clock Source and TX Clock
Source should not be set to INTERNAL. Selecting CHAN 6 RXC allows Fallback clocks to
originate from Sub-Channel 6 pin 17. The following table shows the available rates. If CHAN
6 RXC is selected, SW22-7 can be in either position.
SW22-4 SW22-5 SW22-6 Pos 7=ON Pos 7=OFF
ON
OFF
ON
ON
ON
ON
ON
76,800
38,400
19,200
9,600
4,800
2,400
1,200
57,600
28,800
14,400
7,200
3,600
1,800
900
OFF
OFF
ON
ON
OFF
ON
ON
OFF
OFF
OFF
OFF
OFF
ON
ON
OFF
OFF
OFF
CHAN 6 RXC
SETUP & INSTALLATION
2-4
PATTON ELECTRONICS CO.
3060/V24
INSTALLATION AND OPERATIONS MANUAL
102001UA
Fallback Clock Enable (SW-23-5)
If Clock Fallback is required when the primary clock fails, set switch SW23-5 to OFF. If
Fallback is not required set SW23-5 to ON. The Fallback clock rate is selected with the
internal baud rate option. When the Fallback is activated the FBC LED will illuminate.
Fallback Clocking From Sub-Channel 6 (SW22-4,5,6)
To use the Sub-Channel 6 RX Clock as the Fallback clock set SW22-4, 5 and 6 to OFF. Any
other position will select some internal clock rate as called out in the Internal Clock Rate
selection section.
Fallback Mode Selection (SW23-6)
If Fallback is required, two modes are available via switch SW23-6. To Fallback when the
transitions from the primary clock source stop, set SW23-6 to ON. To Fallback when DCD on
Sub-Channel 1 becomes inactive, set SW23-6 to OFF.
NOTE: Both TX and RX Clock Source Select MUST Be Set !!!!
TX Clock Source Selection (SW21-4,5,6)
TX Clock Source is selected by switch SW21-4, 5 and 6. The following table indicates the
source options provided by the 3060/V24 (CTS MD-V.24/TCB). When using the unit in Async
Mode, the INTERNAL clock source must be selected.
SW21-4 SW21-5 SW21-6
Source
Master
Port 1
Port 2
Port 3
Port 4
Port 5
Port 6
Internal
ON
OFF
ON
ON
ON
ON
ON
OFF
OFF
ON
ON
OFF
ON
ON
OFF
OFF
OFF
OFF
OFF
ON
ON
OFF
OFF
OFF
TX Clock Pin Selection (SW21-7)
The primary transmit clock can be derived from either pin 15 or 24. If pin 15 is to be the
source for primary TX Clock, set SW21-7 to ON. If pin 24 is to be the source for primary TX &
RX Clock, set SW21-7 to OFF.
SETUP & INSTALLATION
2-5
PATTON ELECTRONICS CO.
3060/V24
INSTALLATION AND OPERATIONS MANUAL
102001UA
RX Clock Source Selection (SW24-1,2,3)
RX Clock Source is selected by SW24-1, 2 and 3. The following table indicates the source
options provided by the 3060/V24 (CTS MD-V.24/TCB). If the TXC source is pin 24, both
RXC and TXC will be sourced from pin 24. When the unit is used in an Async network select
INTERNAL as the source of the RX Clock.
SW24-1 SW24-2 SW24-3
Source
Master
Port 1
Port 2
Port 3
Port 4
Port 5
Port 6
Internal
ON
OFF
ON
ON
ON
ON
ON
OFF
OFF
ON
ON
OFF
ON
ON
OFF
OFF
OFF
OFF
OFF
ON
ON
OFF
OFF
OFF
Tail Circuit Buffers (SW22-8)
The 3060/V24 (CTS MD-V.24/TCB) has a Tail Circuit Buffer that is automatically selected
when a Sub-Channel is set as a DTE. The buffer will provide clock synchronization of the data
from the Sub-Channel to the Master Port for Tail Circuit operations. The buffer is de-activated
when the Sub-Channel is configured as a DCE. When operating in an asynchronous
environment the Buffer must be bypassed. To bypass the buffer in a synchronous or
asynchronous application, set switch SW22-8 to OFF (ASYNC). For normal operation in a
synchronous environment set SW22-8 to ON (SYNC). When using a tail circuit modem with
the 3060/V24 (CTS MD-V.24/TCB), the modem connected to the Sub-Channel, should be set
to External Transmit Clocking. The modem at the remote end of the connection should be set
to RX-TX Clocking or Slaved TX Clock. This will insure the same clock is present throughout
the network and clock slippage will not occur.
Port DCE/DTE Selection (SW7 thru SW20)
Slide switches SW7 through SW20 are used to configure DTE/DCE for each port. Slide Both
switches associated with a port to the same position. Example: If connecting a modem (DCE
Device) to the PORT, then the port should be configured as a DTE interface. Slide both
switches to the DTE position toward the interface connector. If connecting a terminal (DTE) to
the Sub-Channel, the port should be configured as a DCE. Slide both switched to the DCE
position away from the interface connector. The port is always configured opposite to the
interface that is to be connected to it. When a port is selected as a DCE, pin 9 and 10 test
voltages are provided to the interface connector if JP4 and JP5 are installed. If the port is
SETUP & INSTALLATION
2-6
PATTON ELECTRONICS CO.
3060/V24
INSTALLATION AND OPERATIONS MANUAL
102001UA
configured as a DTE, pins 9 and 10 are open. JP4 and JP5 control Plus Unreg and Minus
Unreg to all Sub-Channels, therefore it is not possible to have test power on one DCE without
having it on all DCE Sub-Channels.
Test Voltage Enable Pins 9 & 10 (JP4 & JP5)
Pin 9 and Pin 10 unregulated power is provided on each DB-25 connector configured as a
DCE if JP4 and JP5 are installed. Pin 9 and 10 unregulated power is not provided to any
connector configured as a DTE regardless of JP4 and JP5 installation.
DTR / DSR Forced Active (JP6 thru JP12)
DTR is tied to DSR on each of the Sub-Channel ports. If the device connected does not
supply a DTR but requires DSR (DTE) or does not supply DSR but requires DTR (DCE),
installing the forced DTR/DSR jumper (JP6-JP12) for the appropriate Sub-Channel will solve
this problem. The line is forced to +8V via an 820Ω resistor, providing isolation to any driver
that might be on the interface.
Channel Jumper Channel
Jumper
JP10
Master
JP6
JP7
JP8
JP9
4
5
6
1
2
3
JP11
JP12
SETUP & INSTALLATION
2-7
PATTON ELECTRONICS CO.
3060/V24
INSTALLATION AND OPERATIONS MANUAL
102001UA
FACTORY Test Jumpers (JP1, JP2 and JP3)
The three test jumpers JP1, 2 and 3, must be installed for the unit to properly function. These
jumpers are used in the manufacture and test of the product prior to shipment.
SETUP & INSTALLATION
2-8
PATTON ELECTRONICS CO.
3060/V24
INSTALLATION AND OPERATIONS MANUAL
102001UA
APPENDIX
RS-232
RS-232
Leased
Leased
or
or
Dial Line
Dial Line
RS-232 MODEM
RS-232 MODEM
RS-232
RS-232
Leased
or
Dial Line
RS-232 MODEM
3060/V24
Typical Application
Modem
Modem
External
Slave
Host
TX Clocking
TX Clocking
XTXC-24
Modem
Data
Data
Data
Data
TXC-15
Data
TXC-15 RXC-17
XTXC-24
RXC-17
RXC-17
Slave
XTXC-24
TX Clocking
Internal
RXC-17
Terminal
TXC-15
TX Clocking
Modem
Buffer
Data
Data
3060/V24
Typical Tail Circuit Configuration
DB-25 RS-232
Shield (common)
2 Transmit Data (from DTE)
1
14
15
16
17
18
19
20
21
22
23
24
25
Transmit Clock (from DCE)
Receive Clock (from DCE)
3
4
5
6
7
8
9
Receive Data (from DCE)
Request to Send (from DTE)
Clear To Send (from DCE)
Data Set Ready (from DCE)
Signal Ground (common)
Data Terminal Ready (from DTE)
External Transmit Clock (from DTE)
Data Carrier Detect (from DCE)
+ Voltage
10 - Voltage
11
12
13
Interface Pins Supported
APPENDIX
A-1
PATTON ELECTRONICS CO.
3060/V24
INSTALLATION AND OPERATIONS MANUAL
102001UA
Master Port is a DTE
Channel Port is a DTE
Pin 3 RXD
Pin 2 TXD
Pin 4 RTS
Pin 5 CTS
Pin 6 DSR
Pin 8 DCD
Pin 2 TXD
Buffer
Pin 3 RXD
+8v
Clk Out
Clk In
Pin 4 RTS
Pin 5 CTS
Pin 6 DSR
Switch Control
Pin 8 DCD
Master TX Clock
Selection Logic
Pin 20 DTR
Pin 15 TXC
Pin 20 DTR
Pin 15 TXC
Pin 17 RXC
Pin 17 RXC
Master RX Clock
Selection Logic
Pin 24 ETXC
Pin 24 ETXC
Master DTE / Sub-Channel DTE Interface Flow Diagram
Master Port is a DTE
Channel Port is a DCE
Pin 3 RXD
Pin 2 TXD
Pin 4 RTS
Pin 5 CTS
Pin 6 DSR
Pin 8 DCD
Pin 20 DTR
Pin 3 RXD
Pin 2 TXD
Switch Control
Pin 4 RTS
Pin 5 CTS
Pin 6 DSR
Pin 8 DCD
Pin 20 DTR
Master TX Clock
Selection Logic
Pin 15 TXC
Pin 15 TXC
Pin 17 RXC
Pin 17 RXC
Master RX Clock
Selection Logic
Pin 24 ETXC
Pin 24 ETXC
Master DTE / Sub-Channel DCE Interface Flow Diagram
APPENDIX
A-2
PATTON ELECTRONICS CO.
3060/V24
INSTALLATION AND OPERATIONS MANUAL
102001UA
Master Port is a DCE
Pin 2 TXD
Channel Port is a DTE
Pin 2 TXD
Pin 3 RXD
Buffer
Pin 3 RXD
+8v
Clk Out
Clk In
Pin 4 RTS
Pin 4 RTS
Pin 5 CTS
Pin 6 DSR
Pin 8 DCD
Pin 20 DTR
Pin 5 CTS
Pin 6 DSR
Switch Control
+8v
Pin 8 DCD
Pin 20 DTR
Pin 15 TXC
Master TX Clock
Selection Logic
Pin 15 TXC
Pin 17 RXC
Pin 17 RXC
Master RX Clock
Selection Logic
Pin 24 ETXC
Pin 24 ETXC
Master DCE / Sub-Channel DTE Interface Flow Diagram
Master Port is a DCE
Channel Port is a DCE
Pin 2 TXD
Pin 3 RXD
Pin 3 RXD
Pin 2 TXD
Switch Control
Pin 4 RTS
Pin 5 CTS
Pin 4 RTS
Pin 5 CTS
Pin 6 DSR
Pin 8 DCD
Pin 6 DSR
+8v
Pin 8 DCD
+8v
Master TX Clock
Selection Logic
Pin 20 DTR
Pin 15 TXC
Pin 20 DTR
Pin 15 TXC
Pin 17 RXC
Pin 17 RXC
Master RX Clock
Selection Logic
Pin 24 ETXC
Pin 24 ETXC
Master DCE / Sub-Channel DCE Interface Flow Diagram
APPENDIX
A-3
PATTON ELECTRONICS CO.
3060/V24
INSTALLATION AND OPERATIONS MANUAL
102001UA
TECHNICAL SPECIFICATIONS
Applications
Sub-Channel Interface
Multiple RS-232 Sync or Async DCE or DTE
devices sharing one RS-232 DCE or DTE link
EIA RS-232 female connectors (DB-25)
Master Interface
Capacity
EIA RS-232 female connector (DB-25)
Front Panel
One to Six RS-232 Sync or Async DTE or DCE
devices One RS-232 DCE or DTE Master Channel
Data Format
Indicators: . Power, Send Data, Receive Data, Clock
Fallback, Sub-Channel Active, Sub-
Channel Stream
Data transparent at all data rates
Data Rates
Switches: .. Enable/Disable each Sub-Channel
Power Source
Up to 76,800bps
Timing
100-120/200-240 Vac, 50 to 60 Hz, 0.16/0.08 A,
Switch Selectable
Environmental
Internal:
Normal:
External:
DIP switch selectable
From Modem
Clock provided on any Sub-Channel
Operating Temp: .. 32° to 122°F (0° to 50°C)
Relative Humidity: 5 to 90% non-condensing
Altitude:................. 0 to 10,000 feet
Anti-streaming
Dimensions
Automatic:Selectable timeout intervals or disable
Height: .... 1.75 inches (4.44 cm)
Width: ..... 17.00 inches (43.18 cm)
Length: ... 11.00 inches (18.93 cm)
Terminal Service Modes
Scanning Mode: .. Channels are continuously
scanned for activity on a
Weight
sequential basis.
Priority Mode: ...... Channels are simultaniously
monitored channel one has
highest access
4.5 lbs (2.1 Kg)
APPENDIX
A-4
JP6 Thru JP12 Force DTR (20) / DSR(6) Active on the Master or Associated Port
Port 5
Master
Port 1
Port 4
Port 2
Port 3
Port 6
RX Clock Source SW24
1
2
3
Source
Master
SW 7
SW 8
SW 9
SW 10
SW 11
SW 12
SW 13
SW 14
SW 15
SW 16
O N
OFF
O N
O N
O N
OFF
O N
O N
O N
O N
OFF Port
OFF Port
Port
Port
Port
1
2
3
4
5
6
OFF OFF
O N
OFF
O N
O N
O N
OFF OFF Port
SW 17 SW 18 SW 19 SW 20
JP6
OFF OFF OFF Internal
JP9
JP8
JP7
JP10
JP11
JP12
Port 2
Port 1
Port 3
Master
TX Clock Source SW21
SW22
SW21
Port 4
Port 6
Port 5
4
5
6
Source
NOTE: Both TX & RX
Clk Source MUST
be Selected
O N
OFF
O N
O N
O N
OFF
O N
O N
O N
O N
OFF
OFF
Master
Anti-Stream Timer SW21
Port
Port
Port
Port
Port
Port
1
2
3
4
5
6
CTS Delay SW22
CTS Delay Time
1
2
3
Count
1024
2048
4096
16K
Anti-Stream Timer Select
O N
OFF
O N
O N
O N
OFF
O N
O N
O N
O N
1
2
3
Delay
OFF OFF
O N
OFF
O N
O N
O N
OFF
O N
O N
O N
O N
OFF
OFF
No Delay
O N
OFF
O N
O N
O N
OFF OFF
TX Clock Source
1
2
4
9
mS
mS
mS
mS
Internal Baud Rate Selection
OFF OFF
TXC Source Pin 15 = ON / Pin 24 = OFF
Chassis Gnd Connected to Signal Gnd= ON
O N
OFF
O N
O N
O N
OFF 64K
OFF 256K
OFF OFF
OFF OFF OFF
Internal
Sync
=
ON
/
Async
=
OFF
O N
OFF
O N
O N
O N
OFF ON
OFF OFF
OFF OFF OFF
1
2
Meg
Meg
OFF ON
18 mS
36 mS
72 mS
JP5 JP4
OFF OFF
OFF OFF OFF
SW23
Minus Test Voltage
Enable / Disable
Plus Test Voltage
Enable / Disable
No Data Time Out Count
Anti-Stream Enable = ON / Disable = OFF
Data To Channels Gated = ON / Broadcast = OFF
Fallback Disable = ON / Enable = OFF
Internal Baud Rate SW22
No Data Time Out SW23
4
O N
OFF
O N
5
6
Pos 7=ON Pos 7=OFF
1
2
T O Count
O N
O N
OFF
O N
O N
O N
O N
OFF
OFF
76800
38400
19200
9600
4800
2400
57600
28800
14400
7200
3600
1800
900
Fallback Source, CLK Trans = ON / Chan 1 DCD = OFF
O N
O N
OFF
O N
OFF
O N
16
64
256
2048
OFF ON
SW25
JP3
JP2
JP1
OFF OFF
SW24
Channel 1
Channel 2
Channel 3
Channel 4
Channel 5
Channel 6
Factory Test Jumpers
Must Be INSTALLED
For Unit to OPERATE
OFF OFF
O N
OFF
O N
O N
O N
OFF OFF
Channel Activity Indicated By
Control = ON / Data = OFF
RX Clock Source
1200
Chan
6
RXC
OFF OFF OFF
Priority Mode = ON / Scan Mode = OFF
Not Used
Not Used
OFF ON
OFF ON
Sub-Channel Active
Anti-Stream
P W R TXD RXD
Clock Fall Back
1
2
3
4
5
6
1
2
3
4
5
6
Port Enabled = GREEN
B
7622 Rickenbacker Drive
Gaithersburg, MD 20879
Sales: 301 975-1000
Support: 301 975-1007
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