(Page 1 of 1 in this chapter)

Chapter 2

Installing the Board

2.1 Introduction

2.2 Hardware Requirements

2.3 Configuring the Board's I/O Address Space

2.4 Setting the Interrupt

2.5 Installing the Hardware (Without MVIP Connectivity)

2.6 Installing the Hardware (With MVIP Connectivity)

: 2.6.1 Installing the Boards

2.7 Completing the Installation

2.8 Connecting an AG-T1 Board to the Network

: 2.8.1 Ordering T1 Service
: 2.8.2 Connecting to the T1 Trunk

2.9 Connecting An AG-E1 To The Network

2.10 Loopback Configurations

2.1 Introduction

This chapter describes the following steps of the installation process: Step Description For details, see 1 Make sure the board's I/O address space does not conflict with that of any other device in the system. Change the I/O address if necessary. Section 2.3 2 Insert the board into one of your computer's ISA slots. Section 2.6.1 3 Connect the MVIP bus connector, if necessary. Section 2.6.1 4 If application development is complete, connect the board to the E1 or T1 network. Section 2.8 Caution: NMS boards are shipped in protective anti-static containers. Leave the board in its container until you are ready to install it. Handle the board carefully and only hold it by its edges. We recommend that you wear an anti-static wrist strap connected to a good earth ground whenever you handle the board. Take care not to touch the gold fingers which plug into the ISA bus connectors. Caution: AG-T1 and AG-E1 boards are shipped configured for various trunk configurations. These configurations are controlled by various jumpers on the boards. Do not change the jumper settings on these boards. If you do, so your product may not work.

Step	Description	For details, see
1	Make sure the board's I/O address space does not conflict with that of any other device in the system. Change the I/O address if necessary.	Section 2.3
2	Insert the board into one of your computer's ISA slots.	Section 2.6.1
3	Connect the MVIP bus connector, if necessary.	Section 2.6.1
4	If application development is complete, connect the board to the E1 or T1 network.	Section 2.8

Caution:	NMS boards are shipped in protective anti-static containers. Leave the board in its container until you are ready to install it. Handle the board carefully and only hold it by its edges. We recommend that you wear an anti-static wrist strap connected to a good earth ground whenever you handle the board. Take care not to touch the gold fingers which plug into the ISA bus connectors.

Caution:	AG-T1 and AG-E1 boards are shipped configured for various trunk configurations. These configurations are controlled by various jumpers on the boards. Do not change the jumper settings on these boards. If you do, so your product may not work.

2.2 Hardware Requirements

To install and use your AG-T1 or AG-E1 board, you need a computer with: At least one free 16-bit ISA bus slot. At least 8 MB of memory (excluding operating system requirements). This is typically enough for enough ports for a medium size audiotext application. An uninterruptable power supply (UPS). Although a UPS is not strictly required, it is strongly recommended for increased system reliability. Note that it need not power the PC's video monitor.

2.3 Configuring the Board's I/O Address Space

An AG-T1 or AG-E1 board occupies 16 contiguous I/O addresses. These addresses must be unique and must not conflict with any other devices in your system.
The default factory setting for the base address is 0x02C0. If you need to select another base address:

Find the I/O address selector switches on the face of the board, shown in Figure 3.

Set the switches to the base address you need, as directed in this table:

I/O

Selector Switch Setting

I/O

Selector Switch Setting

Addr

1

2

3

4

5

6

Addr

1

2

3

4

5

6

0140

on

on

on

off

off

off

8140

on

on

off

off

off

off

0180

on

on

on

off

on

off

8180

on

on

off

off

on

off

0180

on

on

on

off

on

off

81A0

on

on

off

off

off

on

01C0

on

on

on

off

on

on

81C0

on

on

off

off

on

on

0210

on

on

on

on

off

off

8210

on

on

off

on

off

off

0280

on

on

on

on

on

off

8280

on

on

off

on

on

off

02A0

on

on

on

on

off

on

82A0

on

on

off

on

off

on

02C0

on

on

on

on

on

on

82C0

on

on

off

on

on

on

2140

off

on

on

off

off

off

A140

off

on

off

off

off

off

2180

off

on

on

off

on

off

A180

off

on

off

off

on

off

21A0

off

on

on

off

off

on

A1A0

off

on

off

off

off

on

21C0

off

on

on

off

on

on

A1C0

off

on

off

off

on

on

2210

off

on

on

on

off

off

A210

off

on

off

on

off

off

2280

off

on

on

on

on

off

A280

off

on

off

on

on

off

22A0

off

on

on

on

off

on

A2A0

off

on

off

on

off

on

22C0

off

on

on

on

on

on

A2C0

off

on

off

on

on

on

4140

on

off

on

off

off

off

C140

on

off

off

off

off

off

4180

on

off

on

off

on

off

C180

on

off

off

off

on

off

41A0

on

off

on

off

off

on

C1A0

on

off

off

off

off

on

41C0

on

off

on

off

on

on

C1C0

on

off

off

off

on

on

4210

on

off

on

on

off

off

C210

on

off

off

on

off

off

4280

on

off

on

on

on

off

C280

on

off

off

on

on

off

42A0

on

off

on

on

off

on

C2A0

on

off

off

on

off

on

42C0

on

off

on

on

on

on

C2C0

on

off

off

on

on

on

6140

off

off

on

off

off

off

E140

off

off

off

off

off

off

6180

off

off

on

off

on

off

E180

off

off

off

off

on

off

61A0

off

off

on

off

off

on

E1A0

off

off

off

off

off

on

61C0

off

off

on

off

on

on

E1C0

off

off

off

off

on

on

6210

off

off

on

on

off

off

E210

off

off

off

on

off

off

6280

off

off

on

on

on

off

E280

off

off

off

on

on

off

62A0

off

off

on

on

off

on

E2A0

off

off

off

on

off

on

62C0

off

off

on

on

on

on

E2C0

off

off

off

on

on

on

Edit the address statement of the AG configuration file so it matches the address you set on the board. (See Chapter 3 for more information.)

Figure 3. AG-T1 and AG-E1 Switches and Connectors

I/O	Selector Switch Setting		I/O	Selector Switch Setting
Addr	1	2	3	4	5	6	Addr	1	2	3	4	5	6
0140	on	on	on	off	off	off	8140	on	on	off	off	off	off
0180	on	on	on	off	on	off	8180	on	on	off	off	on	off
0180	on	on	on	off	on	off	81A0	on	on	off	off	off	on
01C0	on	on	on	off	on	on	81C0	on	on	off	off	on	on
0210	on	on	on	on	off	off	8210	on	on	off	on	off	off
0280	on	on	on	on	on	off	8280	on	on	off	on	on	off
02A0	on	on	on	on	off	on	82A0	on	on	off	on	off	on
02C0	on	on	on	on	on	on	82C0	on	on	off	on	on	on
2140	off	on	on	off	off	off	A140	off	on	off	off	off	off
2180	off	on	on	off	on	off	A180	off	on	off	off	on	off
21A0	off	on	on	off	off	on	A1A0	off	on	off	off	off	on
21C0	off	on	on	off	on	on	A1C0	off	on	off	off	on	on
2210	off	on	on	on	off	off	A210	off	on	off	on	off	off
2280	off	on	on	on	on	off	A280	off	on	off	on	on	off
22A0	off	on	on	on	off	on	A2A0	off	on	off	on	off	on
22C0	off	on	on	on	on	on	A2C0	off	on	off	on	on	on
4140	on	off	on	off	off	off	C140	on	off	off	off	off	off
4180	on	off	on	off	on	off	C180	on	off	off	off	on	off
41A0	on	off	on	off	off	on	C1A0	on	off	off	off	off	on
41C0	on	off	on	off	on	on	C1C0	on	off	off	off	on	on
4210	on	off	on	on	off	off	C210	on	off	off	on	off	off
4280	on	off	on	on	on	off	C280	on	off	off	on	on	off
42A0	on	off	on	on	off	on	C2A0	on	off	off	on	off	on
42C0	on	off	on	on	on	on	C2C0	on	off	off	on	on	on
6140	off	off	on	off	off	off	E140	off	off	off	off	off	off
6180	off	off	on	off	on	off	E180	off	off	off	off	on	off
61A0	off	off	on	off	off	on	E1A0	off	off	off	off	off	on
61C0	off	off	on	off	on	on	E1C0	off	off	off	off	on	on
6210	off	off	on	on	off	off	E210	off	off	off	on	off	off
6280	off	off	on	on	on	off	E280	off	off	off	on	on	off
62A0	off	off	on	on	off	on	E2A0	off	off	off	on	off	on
62C0	off	off	on	on	on	on	E2C0	off	off	off	on	on	on

2.4 Setting the Interrupt

The default interrupt for the board is IRQ 12. To set a different interrupt, edit the AG configuration file as described in Chapter 3.
All ISA-compatible AG boards in a system share the same interrupt.

2.5 Installing the Hardware (Without MVIP Connectivity)

To install AG-T1 or AG-E1 boards in your system without MVIP connectivity: If necessary, configure the boards as described in Section 2.3 and Section 2.4. Turn off the computer and disconnect it from the AC power source. Remove the cover and set it aside. Insert each board into an empty ISA slot. Fasten each board's end bracket to the back of the chassis. Replace the cover, and reconnect the computer to its AC power source.
Now complete your installation as described in Section 2.7.

2.6 Installing the Hardware (With MVIP Connectivity)

If you plan to enable MVIP switching between multiple boards in your system, you will need to select a board that will act as the MVIP clock master, driving the bus clock by which all other boards synchronize their communications. All other boards must be configured as clock slaves.
Most MVIP-compatible boards (from NMS and from other manufacturers) can be configured to act as either clock masters or as clock slaves. In your system, the clock master should be an AG-T1 or AG-E1 board that is connected to an E1 or T1 trunk, so the clock is synchronized with the clock on the E1 or T1 line. (See Figure 4.) Figure 4. MVIP Clock Master and Slaves
All boards on the MVIP bus will be connected to one another with an MVIP bus cable, as described in section Section 2.6.1. The clock master must be positioned in the center of the MVIP ribbon cable, as shown in Figure 5. Figure 5. Arranging MVIP Boards in Your System Note: If you have many AG boards in your system, you should use a Teflon MVIP cable (available from NMS). You must use the Teflon cable if you have over 12 boards in your system.
To direct a board to act as clock master or slave, change the ClockRef setting in your AG configuration file, as described in Chapter 3.

2.6.1 Installing the Boards

To install AG-T1 or AG-E1 boards in your system and connect them to the MVIP bus: If necessary, configure the boards as described in Section 2.3 and Section 2.4. Turn off the computer and disconnect it from the AC power source. Remove the cover and set it aside. Insert each board into an empty 16-bit slot. Make sure the board you have designated as clock master is positioned centrally, as shown in Figure 7. Connect the MVIP bus cable to the MVIP connectors on your boards. The board you have designated as clock master should be connected to a central connector on the cable, as shown in Figure 7. Make sure that pin 1 of the MVIP cable (marked with a colored strip) is on the side of the connector away from the metal end bracket. Caution: As you insert the MVIP bus connectors, make sure that the pins are lined up properly. If the connector is not lined up with the header, you may bend or break a header pin. NEVER pull out the connectors by pulling the cable. Always use the white pull-out tabs to remove the MVIP bus connectors. Fasten each board's end bracket to the back of the chassis. Replace the cover, and re-connect the computer to its AC power source. Complete your installation as described in Section 2.7.

Caution:	As you insert the MVIP bus connectors, make sure that the pins are lined up properly. If the connector is not lined up with the header, you may bend or break a header pin. NEVER pull out the connectors by pulling the cable. Always use the white pull-out tabs to remove the MVIP bus connectors.

2.7 Completing the Installation

Once you have installed your hardware as described in the sections above, do the following: Install CT Access. To learn how to do this, see the documentation that comes with the API package. Install any additional country-specific protocol software you require which was not installed with CT Access. To learn how to do this, see the developer's reference manual that came with your protocol software. Create an AG configuration file describing your setup so agmon will configure your board properly when it runs. To learn how to specify items specific to the hardware you are using, see Chapter 3 of this manual. To learn how to specify items for your protocol software, see the developer's reference manual that came with the software. Sample AG configuration files are installed when you install your software components. Run agmon to make your configuration specifications effective. To learn how to run agmon, refer to the CT Access Installation Manual or the AG Runtime Configuration and Developer's Manual. Verify that your installation is operational. Chapter 4 of this manual describes how to do this.

2.8 Connecting an AG-T1 Board to the Network


Caution:	You must complete all required performance tests, and a type approval certificate must be granted by the appropriate regulatory authority in the target country before you can connect the AG-T1 board into the public network.

The AG-T1 board has a DSX-1 trunk interface. For typical T1 communications, the board connects to a Channel Service Unit (CSU), which is connected to a T1 trunk line. The CSU provides a DSX-1 interface to the T1 line, and also contains circuitry which allows the Central Office (CO) to perform diagnostic tests remotely. (See Figure 6.) Figure 6. AG-T1 Trunk Interface (With CSU)
The CSU can be purchased or leased from the telephone company or any other vendor. The CSU must be compatible with the DSX-1 specifications, particularly in maintaining the pulse amplitude level at between 2.3 and 4.2 volts. (See Appendix D.)
Alternatively, the board can connect directly to the T1 line, without a CSU. This setup is most common in applications where the T1 line is proprietary, and is not connected directly to the public network. (See Figure 7.) Figure 7. AG-T1 Trunk Interface (No CSU)

2.8.1 Ordering T1 Service

When you order T1 service, the telephone company needs to know information about your system. For example, to order basic T1 service for your AG-T1 system in the United States, you will need to specify the following information: Category: Information Product Name AG-T1 Service Type: T1, D4 or ESF format (B8ZS is also supported) Signaling: Four wire terminated E&M (robbed-bit) Start: Wink start Dial Tone: Enabled (standard frequency) Digits: DTMF (pulse dial supported but DTMF preferred) Interface Code: 04DU9-B Service Code: 6.0P Channels: 24 (typically) Ringer Equivalence: 0.0A Outdial Senderized: Yes FCC Registration: EMCUSA-21110-XD-N USOC Jack Required: RJ48C or RJ48X

Category:	Information
Product Name	AG-T1
Service Type:	T1, D4 or ESF format (B8ZS is also supported)
Signaling:	Four wire terminated E&M (robbed-bit)
Start:	Wink start
Dial Tone:	Enabled (standard frequency)
Digits:	DTMF (pulse dial supported but DTMF preferred)
Interface Code:	04DU9-B
Service Code:	6.0P
Channels:	24 (typically)
Ringer Equivalence:	0.0A
Outdial Senderized:	Yes
FCC Registration:	EMCUSA-21110-XD-N
USOC Jack Required:	RJ48C or RJ48X

2.8.2 Connecting to the T1 Trunk

AG-T1 boards come with single RJ48C connectors, as shown in Figure 8. Figure 8. AG-T1 and AG-E1 End Bracket Components
With AG-T1 boards, a twisted-pair modular cable with RJ48C connectors is supplied, (shown in Figure 9). Also available is a loopback block, which you can use to connect the board's transmit channels to its receive channels for loopback testing (see Section 2.10). Figure 9. RJ48C Network Connector (shown with ferrite block)
The RJ48C has the pinouts shown in Figure 10. Pin Name 1 R - Receive from network 2 T - Receive from network 3, 6 No connection 4 R1 - Transmit to network 5 T1 - Transmit to network 7, 8 Optional shield - not used Figure 10. Figure 10: RJ48C Pinouts
To avoid causing alarms at your T1 service provider's end, be sure that a valid signal is continuously sent to them, either by looping the signal back at the CSU, or by connecting the CSU to a functioning AG-T1 board. The best way to provide a loopback is simply to unplug your cable from the CSU. The modular connector on most CSUs will loop back the transmit signal to the receive signal when there is nothing plugged in.

Pin	Name
1	R - Receive from network
2	T - Receive from network
3, 6	No connection
4	R1 - Transmit to network
5	T1 - Transmit to network
7, 8	Optional shield - not used

2.9 Connecting An AG-E1 To The Network


Caution:	Natural MicroSystems obtains board-level approvals certificates for supported countries. Some countries require that you obtain system-level approvals before connecting a system to the public network. To learn what approvals you require, contact the appropriate regulatory authority in the target country.

The AG-E1 has one CEPT E1 interface. For typical E1 communications, the board connects directly to an E1 trunk, as shown in Figure 11. Figure 11. AG-E1 Trunk Interface
AG-E1 boards come configured either with a pair of 75 ohm BNC coaxial trunk connectors, or with single 120 ohm RJ48C connectors, as shown in Figure 8.
With AG-E1 120 ohm boards, a twisted pair modular cable with RJ48C connectors is supplied (shown in Figure 10). Also available is a loopback block, which you can use to connect the board's transmit channels to its receive channels for loopback testing (see Section 2.10). With AG-E1 75 ohm boards, two 6-foot coaxial cables with male-to male BNC connectors are supplied (shown in Figure 12). Figure 12. 75 ohm BNC Network Connectors
In each BNC connector, the center conductor is the TIP signal.

2.10 Loopback Configurations

You can configure the AG-T1 or AG-E1 board in loopback mode to test your digital trunk application without actually connecting to the network. Figure 13 and Figure 14 show loopback configurations:
Figure 13. Loopback Configuration (AG-T1 and AG-E1 120 ohm kits) Figure 14. Loopback Configurations (AG-E1 75 ohm kit)

(Page 1 of 1 in this chapter)

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