Patton electronic Network Card 1012B User Manual

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MANUAL

MODEL 1012B

Asynchronous

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ways to tell us how you like this product and how we can meet your product

needs today and in the future.

Carrier Controlled Short

Range Modem

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Phone - Support

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(301) 975-1000

(301) 975-1007

(301) 869-9293

Mail:

Patton Electronics Company

7622 Rickenbacker Drive

Gaithersburg, MD 20879 USA

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is BABT and ISO 9001 certified. We meet and exceed the highest standards in

the industry (CE, UL, etc.).

Please contact us and let us know how we may provide you with the

answers to your needs.

Thank you.

Burton A.Patton

Vice President

P.S. Please tell us where you purchased this product.

_________________________________________________________

SALES OFFICE

(301) 975-1000

TECHNICAL SUPPORT

(301) 975-1007

http://www.patton.com

Part# 07M1012B Rev. A

Doc# 040061U

Revised 10/28/03

Patton Electronics Company

An ISO-9001

Certified Company

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3.0 CONFIGURATION

To change the DTE/DCE setting, do the following:

By default, the Model 1012B is configured to be a DCE with the

transmitter set for controlled carrier. If the 1012B is in controlled carrier

mode for multi-point operation, the transmitter is controlled by RTS (pin 4)

when it is a DCE, and controlled by CD (pin 8) when configured as a DTE.

1. Using a small screwdriver, insert the tip into one of the slots in

the side of the Model 1012B (see Figure 2).

The DTE/DCE slide switch (SW1 in Figure 1) is used to configure

DTE or DCE orientation. The RTS/CD control jumper (J2 in Figure 1) is

used to configure constant/controlled carrier mode.

Section 3.1 describes how to configure the DTE/DCE switch.

Section 3.2 provides information on configuring the transmitter to be

constant or controlled.

3.1 SETTING THE MODEL 1012B AS DCE OR DTE

Note: Remember that when the DTE/DCE switch is set for DCE,

the 1012B functions as a DCE device. Otherwise, when the switch is in

the DTE position, the short range modem operates as a DTE device..

SW1 (located inside the Model 1012B) controls the DTE/DCE

configuration of the Model 1012B. Figure 1 shows the location of the

DTE/DCE switch on the 1012B circuit board.

Figure 2. Using a small screwdriver to open the Model 1012B case

2. Rotate the screwdriver as shown in Figure 2 to open the case.

DCE

DTE

Figure 3. SW1 DTE/DCE switch

3. If the device connected to the Model 1012B is a PC, terminal

or host computer (or is wired like one), set switch SW1 to “DCE” (see

Figure 3). This causes the Model 1012B to behave like data

communications equipment.

4. If the device connected to the Model 1012B is a modem or

multiplexer (or is wired like one), set the switch to “DTE.” This setting

causes the Model 1012B to behave like data terminal equipment.

5. After you finish configuring the DTE/DCE switch, snap the

case halves back together, then go to section 4.0, “Installation.”

Figure 1. Model 1012B Board, showing switch and strap locations

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3.2 SETTING THE RTS/CD CARRIER CONTROL JUMPER

4.0 INSTALLATION

The RTS/CD jumper (see Figure 1) is identified as J2 inside the

1012B (see Figure 1). To access this strap, do the following:

Once you have properly configured the Model 1012B, you are

ready to connect it to your system. This section tells you how to

connect the Model 1012B to the twisted pair and RS-232 interfaces,

and how to operate the Model 1012B.

1. Using a small screwdriver, insert the tip into one of the slots in

the side of the Model 1012B (see Figure 2).

2. Rotate the screwdriver as shown in Figure 2 to open the case.

4.1 HOW TO CONNECT TO THE TWISTED PAIR INTERFACE

The Model 1012B passes data and handshaking signals between

two RS-232 devices at distances to 6 miles (9.7 km) and data rates to

38.4 kbps. There are two requirements for installing the Model 1012B.

DTE/DCE Switch Setting

DCE (Default)

DTE

RTS/CD jumper in place

(default)

Carrier activated by

RTS - pin 4 (default)

Carrier activated by

CD - pin 8

1. These units work in pairs. Therefore, you must have one Model

1012B at each end of a two twisted pair interfaces.

RTS/CD jumper removed

Carrier constantly ON

Table 1. Interaction of DTE/DCE switch and RTS/CD strap

2. To function properly, the Model 1012B needs two twisted pair of

metallic wire. They must be unconditioned, dry metallic wire,

unloaded, between AWG 19 and 26 (the higher number gauges

may limit distance somewhat). Standard dial-up telephone

circuits, or leased circuits that run through signal equalization

equipment, are not acceptable.

3. The RTS/CD carrier control jumper setting on the 1012B

determines whether the transmitter is constantly on or is controlled by an

RS-232 control signal. When this jumper is removed from the pegs, the

1012B transmitter is constantly on. When the jumper is in place on the

pegs, the transmitter is controlled by either RTS or CD. When the control

signal is a positive voltage, the transmitter is turned on, if negative

voltage, the transmitter is off. See Table 1 for the correspondence

between DTE/DCE and RTS/CD parameters.

For your convenience, the Model 1012B is available with the

following twisted pair interfaces: RJ-11 jack, RJ-45 jack, and terminal

blocks.

DTE/DCE Switch Setting

DCE

DTE

4.1.1 TERMINAL BLOCK TWISTED PAIR CONNECTION

Carrier Detect Function

Carrier detect is output

on pin 8 (CD)

Carrier detect is output

on pin 4 (RTS)

If your application requires you to connect one or two pair of bare

wires to the Model 1012B, you will need to access the external terminal

blocks. The following instructions will tell you how to connect the bare

wires to the terminal blocks.

Table 2. Interaction of DTE/DCE switch and RTS/CD jumper

4. The RTS/CD carrier control jumper also controls which signal

will function as the Carrier Detect (CD) signal. If the DTE/DCE switch is

set to “DCE,” the carrier detect is output on Pin 8. If the DTE/DCE

switch is set to “DTE,” the carrier detect is output on Pin 4. Table 2

shows which control signal provides the carrier detect function, per the

DTE/DCE setting.

1. Strip the outer insulation from the twisted pairs about one inch

from the end.

2. Strip the insulation on each of the twisted pair wires about

0.25 inch.

Note: For multi-point applications, it is necessary to have a jumper

in place on the pegs on the slave modems.

5. After you finish configuring the DTE/DCE switch, snap the

case halves back together and continue the installation process.

Figure 4. Stripping the outer insulation from the twisted pairs

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Signal/Pin Assignments

The 6-wire RJ-11 and 8-wire RJ-45 jack options for the Model

1012B are prewired for a standard TELCO wiring environment. Use the

guide below when ordering or constructing twisted pair cables.

Figure 5. Stripping 0.25-inch of insulation from the twisted pairs

3. Connect one pair of wires to XMT+ and XMT- (transmit positive

and negative) on the terminal block, making careful note of

which color is positive, and which color is negative.

RJ-11

SIGNAL

RJ-45

SIGNAL

1 . . . . . .GND†

2 . . . . . .RCV-

3 . . . . . .XMT+

4 . . . . . .XMT-

5 . . . . . .RCV+

6 . . . . . .GND†

1 . . . . . . .N/C

2 . . . . . .GND†

3 . . . . . . .RCV-

4 . . . . . .XMT+

5 . . . . . . .XMT-

6 . . . . . .RCV+

7 . . . . . .GND†

8 . . . . . . .N/C

4. Connect the other pair of wires to RCV+ and RCV- (receive

positive and negative) on the terminal block, again making

careful note of which color is positive, and which color is

negative. Your completed crossover cable should be pinned

electrically as shown below:

XMT +

XMT -

RCV+

RCV -

One Pair

}

^†Connection to ground is optional

RCV -

RCV +

XMT -

XMT+

One Pair

Crossover Cable Construction

5. When you finish connecting the wires to the terminal block, the

assembly should resemble the diagram Figure 6 below.

Connection of a 4-wire twisted pair circuit between two or more

Model 1012Bs requires a crossover cable as shown in the figures on

the following page.

RJ-11

SIGNAL PIN# PIN# . . . . . . . . . . .SIGNAL

GND†

RCV-

XMT+

XMT-

RCV+

GND†

6 . . . . . . . . . . . . .GND†

4 . . . . . . . . . . . . . .XMT-

5 . . . . . . . . . . . . .RCV+

2 . . . . . . . . . . . . . .RCV-

3 . . . . . . . . . . . . .XMT+

1 . . . . . . . . . . . . .GND†

Figure 6. Wiring terminal block of Model 1012B

RJ-45

SIGNAL PIN# PIN# . . . . . . . . . . .SIGNAL

The Model 1012B is now installed.

GND†

RCV-

XMT+

XMT-

RCV+

GND†

7 . . . . . . . . . . . . .GND†

5 . . . . . . . . . . . . . .XMT-

6 . . . . . . . . . . . . .RCV+

3 . . . . . . . . . . . . . .RCV-

4 . . . . . . . . . . . . .XMT+

2 . . . . . . . . . . . . .GND†

4.1.2 MODULAR TWISTED PAIR CONNECTION

The Model 1012B offers two interface options for twisted pair

connection: RJ-11 (6-wire) jack and RJ-45 (8-wire) jack. Pages 9 and

10 show signal/pin assignments for the jacks, as well as pin-outs for the

appropriate twisted pair cable topologies.

^†Connection to ground is optional

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4.2.2 DAISY CHAIN TOPOLOGY

Using a daisy chain topology, you may connect several Model

1012Bs together in a master/slave arrangement. Maximum distance

between the units will vary based upon the number of drops, data rate,

wire gauge, etc. Contact Patton Technical Support at (301) 975-1007;

http://www.patton.com; or, [email protected] for specific

distance estimates.

Figure 6 shows how to wire the two-pair cables properly for a

AT&T standard modular pin assignments

HOST

FIRST SLAVE

OTHER SLAVE(S)

4.2 WIRING FOR MULTI-POINT CIRCUITS

XMT+

XMT-

RCV+

RCV-

RCV+

RCV-

XMT+

XMT-

RCV+

RCV-

XMT+

XMT-

The Model 1012B supports multi-point applications using either a

star or a daisy chain topology. Both topologies require special wiring.

Note: Refer to Section 3.2 for multi-point settings.

Table 3. Daisy Chain Wiring for Model 1012B Host and Slaves

Model 1012B’s daisy chain topology. Note that the ground connection is

not needed.

4.2.1 STAR TOPOLOGY

Using a star topology, you may connect several Model 1012Bs

together in a master/slave arrangement. Maximum distance between

the units will vary based upon the number of drops, data rate, wire

gauge, etc. Contact Patton Technical Support (301) 975-1007;

http://www.patton.com; or, [email protected] for specific

distance estimates.

Optional Connection: Dual Modular Jacks

To facilitate daisy chaining, the Model 1012B is available in a

"DRJ11" (dual RJ-11) or "DRJ45" (dual RJ-45) version. These units have

two specially wired modular jacks for twisted pair connection. With the

dual modular units, you do not need to build cumbersome "Y" cables for

your daisy chain application. Simply use a crossover cable to go between

the host and the first slave (see Section 4.1.2 for crossover cable wiring

instructions), and straight through cables between the slaves.

Table 3 shows how to wire the two-pair cables properly for a Model

1012B star topology. Note that the ground connection is not needed.

HOST

FIRST SLAVE

SECOND SLAVE

RCV+

4.3 CONNECTION TO THE RS-232 INTERFACE

Once you have properly configured the Model 1012B and

connected the twisted pair wires correctly, plug the Model 1012B

directly into the DB-25 port of the RS-232 device. After doing so,

remember to insert and tighten the two captive connector screws.

XMT+

RCV+

XMT-

RCV+

RCV-

XMT+

XMT-

Note: If you must use a cable to connect the Model 1012B to the

RS-232 device, make sure it is a straight through cable of

the shortest possible length—we recommend 6 feet (1.8

meters) or less.

RCV-

XMT+

4.4 OPERATING THE MODEL 1012B

Once the Model 1012B is properly installed, it should operate

transparently—as if it were a standard cable connection. Operating power

is derived from the RS-232 data and control signals; there is no "ON/OFF"

switch. All data signals from the RS-232 interface are passed straight

through. Additionally, one control signal is passed in each direction.

XMT-

Table 3. Star wiring for Model 1012B host and slaves

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APPENDIX A

SPECIFICATIONS

APPENDIX B

RS-232C PIN CONFIGURATIONS

Transmission Format: Asynchronous, full duplex, half duplex

DIRECTION

"DCE" STANDARD SETTING

DIRECTION

Transmission Line:

Interfaces:

Data Rates:

Isolation:

Two unconditioned twisted pair AWG 19–26

EIA RS-232, ITU/CCITT V.24

0–38.4 kbps

Minimum 1500 V RMS via custom

transformers

1- (FG) Frame Ground

2- (TD) Transmit Data

3- (RD) Receive Data

4- (RTS) Request to Send

5- (CTS) Clear to Send

6- (DSR) Data Set Ready

7- (SG) Signal Ground

To Model 1012B

From Model 1012B

To Model 1012B

Surge Protection:

600W power dissipation at 1 mS

From Model 1012B

Factory Switch Setting: DCE (transmits from RS-232 on pin 3)

Control Signals:

CTS follows RTS from the terminal (DTE);

DSR follows DTR from the terminal (DTE);

CD indicates reception of carrier

Approximately 30 mS

DB-25 male or female on RS-232 side; RJ-

11, RJ-45 or terminal block with strain relief

on line side

To Model 1012B

Data Term. Ready (DTR) - 20

8- (CD) Carrier Detect

9- External Power

From Model 1012B

To Model 1012B

RTS/CTS Delay:

Connectors:

Power Supply:

No external power required; uses power

from EIA data and control signals

0–60°C (32–140°F)

0–15,000 feet (0–4,500 meters)

5 to 95% non-condensing

Temperature Range:

Altitude:

Humidity:

DIRECTION

"DTE" STANDARD SETTING

DIRECTION

1- (FG) Frame Ground

2- (TD) Transmit Data

3- (RD) Receive Data

4- (RTS) Request to Send

5- (CTS) Clear to Send

6- (DSR) Data Set Ready

7- (SG) Signal Ground

8- (CD) Carrier Detect

9- External Power

From Model 1012B

To Model 1012B

From Model 1012B

To Model 1012B

Weight:

Dimensions:

2 oz. (60 grams)

3.54L x 2.09W x 0.79H in.

(90L x 53W x 20H mm)

Distance Table (miles)

Wire Gauge

From Model 1012B Data Term. Ready (DTR) - 20

To Model 1012B

Data

Rate

1,200 to 38,400 6.0

4.0

2.5

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APPENDIX C

Notes

MODEL 1012B BLOCK DIAGRAM

________________________________________________________

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