Eicon Networks | ISDN NT1 | Specifications | Eicon Networks ISDN NT1 Specifications

Eiconcard S9x Family
for PCI-Compatible Bus
www.eicon.com
First Edition (July 2001)
203-227-01
Eicon, Eiconcard, and the Eicon logo are either trademarks or registered
trademarks of Eicon Networks Corporation.
Changes are periodically made to the information herein; these changes will be
incorporated into new editions of the publication. Eicon Networks may make
improvements and/or changes in the products and/or programs described in
this publication at any time.
Copyright © 1996-2001 Eicon Networks Corporation. All rights reserved,
including those to reproduce this publication or parts thereof in any form without
permission in writing from Eicon Networks Corporation.
www.eicon.com
Table of Contents
Introduction ................................................................... 5
About this Manual ....................................................................... 6
Installing the Eiconcard S9x.......................................... 7
Making an ISDN Connection......................................... 9
Eiconcard S91 S/T...................................................................... 9
Eiconcard S91 U....................................................................... 12
Making a VHSI Connection ......................................... 13
Interface Specifications ............................................... 14
Cable Construction Information ................................................
The V.24 DCE Interface ............................................................
The V.24 DTE Interface ............................................................
The V.35 Interface.....................................................................
The EIA-530 Interface...............................................................
The V.36/RS-449 Interface .......................................................
The X.21 Interface ....................................................................
Back-to-Back Connections .......................................................
15
16
18
20
22
24
26
28
LED Functionality ........................................................ 29
Technical Specifications.............................................. 31
International Regulatory Information ........................... 33
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Introduction
The S9x family of Eiconcards are PCI Plug-and-Play (PnP) cards
that offer X.25 connectivity through one or two (depending on the
the Eiconcard model)very high-speed ports (supporting V.24, V.35,
EIA-530, V.36/RS-449, or X.21 interfaces) at speeds of up to 2
Mbps, and/or through an ISDN BRI port (Eiconcard S91) at speeds
of up to 128 kbps (over the “D” channel or the “B” channels).
Note The Eiconcard S9x also supports protocols such as SDLC,
PPP, and Frame Relay.
All Eiconcards have been tested and found to comply with
the Electromagnetic compatibility, Safety and Network
connection regulations within the European Union, North
America, and other major territories. Read the regulatory
information on page 33 before installing and using your
adapter.
Hardware Features
The Eiconcard S9x features the following:
Eiconcard
CPU/Memory/Flash
Eiconcard S90
25 MHz Motorola 68302 /
1 MB RAM / 1 MB Flash
# of VHSI Ports #of ISDN BRI Ports
1
N/A
Eiconcard S91
25 MHz Motorola 68302 /
1 MB RAM / 1 MB Flash
1
1
Eiconcard S92
33 MHz Motorola 68360 /
1 MB RAM / 1 MB FLASH
2
N/A
Eiconcard S94
33 MHz Motorola 68360 /
8 MB RAM / 1 MB FLASH
2
N/A
The Very High-Speed Interface (VHSI) ports, support full duplex
communications over a V.24, V.35, EIA-530, V.36/RS-449, or X.21
interface at speeds of up to 2 Mbps per port (depending on the type
of interface selected).
The ISDN BRI port supports transfer rates of up to 128 kbps (over
the “D” channel or the “B” channels).
Ease of Use
The VHSI port features automatic interface selection. The intelligent
controller on the Eiconcard S9x detects the type of cable connected
to the port and automatically selects the matching interface.
Introduction
5
Installing the Eiconcard S9x
Follow the steps below to install the Eiconcard S9x. If you want the
Eiconcard S9x to be available to multiple users on a LAN, install it
in the PC that will function as a gateway for the LAN.
1 Prepare the PC
Turn off the PC and disconnect its power cable. Remove the cover
of the PC according to the instructions that came with it.
2 Install the Eiconcard S9x
Drain static electricity from your body by touching the metal
chassis (the unpainted metal at the back of your PC).
b) Locate a slot in your PC that has the same bus type as your
adapter.
If your PC has both ISA and PCI slots, the PCI slots are shorter,
as shown.
a)
metal plates
PCI slots
ISA slots
Figure 1. Locating a PCI slot
If there is a metal plate at the end of the slot, remove it and keep
the screw.
d) Firmly insert the adapter into the selected slot.
To avoid damaging your hardware, insert the adapter
only into a slot with the same bus type as the adapter.
Inserting the adapter into any other type of slot can
damage your adapter, your PC, or both.
c)
6
Installing the Eiconcard S9x
screw
PCI
Eiconcard
PCI slot
Figure 2. Inserting the Eiconcard S9x.
Fasten the adapter with the screw (to ensure that the adapter
is properly secured and grounded to the PC’s chassis).
f) Replace the cover of your PC as described in your PC’s
manual.
g) Reconnect the power cable.
e)
3 Test the Eiconcard S9x
The application software purchased with the Eiconcard S9x
contains a test program to verify the card’s integrity. Consult the
documentation supplied with this software for details.
4 Configure the Eiconcard S9x
Before you can use the Eiconcard S9x, you must configure it to work
with your communications software. The documentation which
came with this software contains complete instructions on how to
configure the card.
For information on the LED functionality, see “LED Functionality”
on page 29.
5 Connect to the outside world
You are now ready to connect the Eiconcard S9x to the outside
world.
• To set up ISDN connections, consult “Making an ISDN Connection” on page 8.
• To set up a VHSI connection, consult “Making a VHSI Connection” on page 13.
Installing the Eiconcard S9x
7
Making an ISDN Connection
Note Only the Eiconcard S91 supports ISDN connections.
After you have installed your Eiconcard S91, connect your ISDN
line.
In Europe and most countries worldwide
In Europe as well as most countries outside of North America and
Japan, your Eiconcard S91 adapter can be connected directly to
your ISDN line using the included cable.
1.
ISDN wall jack
Eiconcard S91
3.
2.
Figure 3. Connecting the ISDN cable.
1 Take the cable included with the Eiconcard S91.
2 Plug one end into the Eiconcard S91.
3 Plug the other end into the ISDN wall jack.
In North America and Others
In North America and some other countries (check with your ISDN
provider), you need an NT1 (network terminating device) to connect
your ISDN line. However, depending on your Eiconcard S91
interface, the NT1 might be integrated into the adapter. Follow the
instructions for your adapter (with U-interface or S/T-interface).
Note North American and Australian Eiconcard S91 S/T users may
need to adjust the Eiconcard S91 termination. Refer to the section
“Termination” on page 11, for more information.
8
Making an ISDN Connection
Eiconcard S91 U-interface:
If your Eiconcard S91 has a U-interface, the NT1 is integrated into
the adapter, and you do not need a separate NT1.
1.
ISDN wall jack
Eiconcard S91
3.
2.
Figure 4. Connecting the ISDN cable.
1 Take the cable included with the Eiconcard S91.
2 Plug the RJ-45 end into the Eiconcard S91.
3 Plug the RJ-11 end into the ISDN wall jack.
Note In North America, many ISDN wall jacks (with a U-interface)
are RJ-11. However, if your ISDN wall jack is RJ-45, you can still
plug the RJ-11 end of the cable into your RJ-45 ISDN wall jack
(there will be some space on both sides of the plug).
Making an ISDN Connection
9
Eiconcard S91 S/T-interface:
If your Eiconcard S91 has an S/T-interface, you need a separate NT1.
Note You can order an NT1 from Eicon Networks or from another
supplier.
Eiconcard S91
ISDN wall jack
2.
4.
1.
3.
6.
NT1
S/T jack
U jack
Figure 5. Connecting to an NT1.
1 Take the cable included with the Eiconcard S91.
2 Plug one end into the Eiconcard S91.
3 Plug the other end into the NT1’s S/T jack.
4 Take the cable included with the NT1.
5 Plug one end into the ISDN wall jack.
6 Plug the other end into the NT1’s U jack.
10
Making an ISDN Connection
5.
Termination
This section applies to S/T interface users in Australia and North
America, and provides instructions to help set up termination
scenarios. Termination requirements vary according to: the number
of devices connected to the NT1; and the distance between the
devices and the NT1.
For users who require termination, the Eiconcard S91 S/T has been
shipped with a separate terminating resistor. For information on how
to install the terminating resistor, see “Installing a Terminating
Resistor” on page 12.
How do I determine the termination value?
Single ISDN Device
If the NT1 is connected to a single ISDN device (e.g.
Eiconcard S91), follow the instructions below.
75 meters or more
If the connection spans 75 meters (250 feet) or more, connect the
100 ohm terminating resistor included with the ISDN cable. Set the
NT1 to provide 100 ohms of resistance. Consult the manual
provided with the external NT1 for more detailed instructions.
Note Some NT1s do not support connections over 75 meters (250
feet). Check your user documentation to determine the distance
supported.
75 meters or less
If the connection spans less than 75 meters (250 feet), set the NT1
to 50 ohms of resistance, and do not connect the terminating
resistor. Consult the manual provided with the external NT1 for more
detailed instructions.
Termination
11
Multiple ISDN Devices
If the NT1 is connected to more than one ISDN device, follow the
procedures below.
75 meters or more
If the connection spans 75 meters (250 feet) or more, both end
devices on the ISDN bus must be set to 100 ohm termination. If the
Eiconcard is one of the end devices, connect the 100 ohm
terminating resistor included with the ISDN cable. Consult the
manuals provided with the other ISDN devices and NT1 for more
details.
Note Some NT1s do not support connections over 75 meters (250
feet). Check your user documentation to determine the distance
supported
75 meters or less
If the connection spans less than 75 meters (250 feet), set the NT1
to 50 ohms of resistance, and do not connect the terminating
resistor. Set the other ISDN devices to no termination. Consult the
manuals provided with the NT1 and other ISDN devices for more
detailed instructions.
Installing a Terminating Resistor
The terminating resistor is installed by inserting the RJ-45 end of
the ISDN cable into the terminating resistor, and then inserting the
terminating resistor into the wall jack.
12
Termination
Making a VHSI Connection
The Eiconcard S9x can connect as a DTE to devices such as Data
Service Units (DSUs) which support one of the following interfaces:
V.24, V.35, EIA-530, V.36/RS-449, or X.21. It can also connect
directly to a host computer, or back-to-back to another Eiconcard.
Each VHSI port is configured independently
Table 1 lists the most common connections supported by the VHSI
port, and specifies the part number of the required Eicon Networks
cable. For information on making your own cables, see “Interface
Specifications” on page 14.
Interface
Connection
V.24
to V.24 DCE
300-077
to V.24 DTE
300-078
V.35
Part #
to V.35 DCE
300-076
to V.35 DCE (France)
300-083
EIA-530
to EIA-530 DCE
300-080
V.36/RS-449
to V.36/RS-449 DCE
300-079
X.21
to X.21 DCE
300-081
Direct
to VHSI port on another Eiconcard S9x or 300-075
compatible Eicon Networks Eiconcard
Table 1. Standard Interface Cables
To use an interface, simply install the appropriate cable. The
Eiconcard S9x recognizes the cable and automatically prepares the
port for that interface.
Consult the documentation which came with your networking
software for more information about port configuration.
Making a VHSI Connection
13
Interface Specifications
The standards compliant with each interface supported on the VHSI
port are listed in Table 2. The rest of this section describes the
allocation of pins used to implement the electrical and signaling
requirements of each interface. A wiring diagram is also provided,
to show the correspondence of the interface pinout to the VHSI port.
Interface
Standard
Compatibility
V.24
CCITT V.24
Signaling
V.35
EIA-530
V.36/RS-449
X.21
CCITT V.28
Electrical
CCITT X.21bis
Electrical and signaling
EIA RS-232-C
Electrical and signaling
ISO 2110
Connector type for the DCE side of a
V.24 VHSI Modem Cable
CCITT V.28
Some signals for electrical
CCITT V.35
Some signals for electrical and signaling
ISO 2593
Connector type for the DCE side of a
V.35 VHSI Modem Cable
RS-422
Electrical
RS-423
Electrical
ISO 2110
Connector type for the DCE side of a
EIA-530 VHSI Modem Cable
CCITT V.10
Electrical
CCITT V.11
Electrical
RS-422
Electrical
RS-423
Electrical
ISO 4902
Connector type for the DCE side of a
V.36/ RS-449 VHSI Modem Cable
CCITT X.21
Signaling
CCITT V.11
Electrical
CCITT X.27
Electrical
EIA RS-422-A
Electrical
ISO 4903
Connector type for the DCE side of an
X.21 VHSI Modem Cable
Table 2. Interface Compatibility
14
Interface Specifications
Cable Construction Information
If you plan to construct your own VHSI cables, be sure to observe
the guidelines given below.
Wire Gauge, Grounding, and Pairing
• Use 28 AWG 7-strand wire with 0.020–0.028" insulation.
• The chassis must be grounded both by a drain wire and by the
braid; both must be connected to the connector case and shell
at each end of the cable. The braid must be connected through
its full circumference.
• Wires identified under the heading “Twisted Pairs” must be
paired. If you do not install twisted pairs correctly, the cable will
not work.
Type of Connectors
The VHSI port accepts a high density 36-pin male cable connector.
The types of connectors used on the interface-specific end of the
cable are as follows:
Interface
Connector
V.35
Type M
V.24
DB25
V.36/RS-449
DB37
EIA-530
DB25
X.21
DB15
Table 3. Connector Types
Cable Construction Information
15
The V.24 DCE Interface
A pin-out diagram for the V.24
DCE interface is shown in
Figure 6. The signal definitions
and names are listed in Table 4.
1
PG N D
TXD
RXD
RTS
CTS
DSR
SG N D
DCD
14
TCLK
RCLK
TEST
DTR
RLB
RI
DTECLK
TI
25
13
Figure 6. V.24 DCE Interface
Pin #
1
2
3
4
5
6
7
8
15
17
18
20
21
22
24
25
Signal
Name
Direction
CCITT #
PGND
TXD
RXD
RTS
CTS
DSR
SGND
DCD
TCLK
RCLK
TEST
DTR
RLB
RI
DTECLK
TI
Protective Ground
Transmit Data
Receive Data
Request to Send
Clear to Send
Data Set Ready
Signal Ground
Data Carrier Detect
Transmit Clock (DCE)
Receive Clock
Local Loopback Activation
Data Terminal Ready
Remote Loopback
Ring Indicator
Transmit Clock (DTE)
Test Indicator
Common
Output
Input
Output
Input
Input
Common
Input
Input
Input
Output
Output
Output
Input
Output
Input
101
103
104
105
106
107
102
109
114
115
141
108
140
125
113
142
Table 4. V.24 DCE Interface Signals
16
The V.24 DCE Interface
VHSI—V.24 Connections
The wiring diagram below shows the connections required to
construct a VHSI—V.24 DCE cable. For additional information
required to construct your own cables, see “Cable Construction
Information” on page 15.
VHSI
V.24
7
9
11
12
13
15
16
18
20
21
25
30
33
34
1
2
3
19
5
17
6
10
8
14
23
35
24
28
26
32
23
35
24
5
6
2
8
15
17
22
3
18
4
20
21
25
7
DRAIN WIRE
1
BRAID
Figure 7. VHSI—V.24 DCE Connections
The V.24 DCE Interface
17
The V.24 DTE Interface
A pin-out diagram for the V.24
DTE interface is shown in
Figure 8. The signal definitions
and names are listed in Table 5.
PGND
TXD
RXD
RTS
RTS
DSR
SGND
DCD
1
14
RCLK
RCLK
DTR
DTECLK
25
13
Figure 8. V.24 DTE Interface
Pin #
1
2
3
4
5
6
7
8
15
17
20
24
Signal
Name
Direction
CCITT #
PGND
TXD
RXD
RTS
RTS
DSR
SGND
DCD
RCLK
RCLK
DTR
DTECLK
Protective Ground
Transmit Data
Receive Data
Request to Send
Request to Send
Data Set Ready
Signal Ground
Data Carrier Detect
Receive Clock
Receive Clock
Data Terminal Ready
Transmit Clock (DTE)
Common
Output
Input
Output
Output
Input
Common
Input
Input
Input
Output
Output
101
103
104
105
105
107
102
109
115
115
108
113
Table 5. V.24 DTE Interface Signals
18
The V.24 DTE Interface
VHSI—V.24 Connections
The wiring diagram below shows the connections required to
construct a VHSI—V.24 DTE cable. For additional information
required to construct your own cables, see “Cable Construction
Information” on page 15.
VHSI
V.24
7
17
15
8
9
25
11
12
13
20
3
4
5
24
16
15
20
30
1
2
3
19
2
6
7
DRAIN WIRE
1
BRAID
Figure 9. VHSI—V.24 DTE Connections
The V.24 DTE Interface
19
The V.35 Interface
A pin-out diagram for the V.35
interface is shown in Figure 10.
The signal definitions and names
are listed in Table 6.
SGND
CTS
DCD
RI
TEST
RLB
R XD +
R XD R C LK +
R C LK -
B
TI
NN
A
P G ND
RTS
DSR
DTR
T X D+
TX DCLK+
CLKT CLK+
TCLK-
MM
Figure 10. V.35 Interface
Pin #
A
B
C
D
E
F
H
J
L
N
P
R
S
T
U
V
W
X
Y
AA
NN
Signal
Name
Direction
CCITT #
PGND
SGND
RTS
CTS
DSR
DCD
DTR
RI
TEST
RLB
TXD+
RXD+
TXDRXDCLK+
RCLK+
CLKRCLKTCLK+
TCLKTI
Protective Ground
Signal Ground
Request to Send
Clear to Send
Data Set Ready
Data Carrier Detect
Data Terminal Ready
Ring Indicator
Local Loopback Activation
Remote Loopback
Transmit Data
Receive Data
Transmit Data
Receive Data
Transmit Clock (DTE)
Receive Clock (DCE)
Transmit Clock (DTE)
Receive Clock (DCE)
Transmit Clock (DCE)
Transmit Clock (DCE)
Test Indicator
Common
Common
Output
Input
Input
Input
Output
Input
Output
Output
Output
Input
Output
Input
Output
Input
Output
Input
Input
Input
Input
101
102
105
106
107
109
108
125
141
140
103A
104A
103B
104B
113A
115A
113B
115B
114A
114B
142
Table 6. V.35 Interface Signals
20
The V.35 Interface
VHSI—V.35 Connections
The wiring diagram below shows the connections required to
construct a VHSI—V.35 cable. For additional information required
to construct your own cables, see “Cable Construction Information”
on page 15.
TWISTED PAIRS
(MANDATORY)
VHSI
V.35
Y
AA
R
T
V
X
P
S
U
W
D
E
F
J
L
C
H
N
NN
B
A
5
23
6
24
8
26
10
28
14
32
9
11
13
18
21
25
30
33
34
36
1
3
19
DRAIN WIRE
BRAID
Figure 11. VHSI—V.35 Connections
The V.35 Interface
21
The EIA-530 Interface
A pin-out diagram for the EIA530 interface is shown in
Figure 12. The signal definitions
and names are listed in Table 7.
PG ND
TXD+
RXD+
RTS+
CTS+
DSR+
SG N D
DCD+
RTXCDCDCL KTRXCCTS-
1
13
14
25
TXDTRXC+
RXDRTXC+
TEST
RTSDTR+
RLB
DSRDTRCLK+
TI
Figure 12. EIA-530 Interface
Pin #
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
Signal
Name
Direction
CCITT #
EIA #
PGND
TXD+
RXD+
RTS+
CTS+
DSR+
SGND
DCD+
RTXCDCDCLKTRXCCTSTXDTRXC+
RXDRTXC+
TEST
RTSDTR+
RLB
DSRDTRCLK+
TI
Protective Ground
Transmit Data
Receive Data
Request to Send
Clear to Send
Data Set Ready
Signal Ground
Data Carrier Detect
Receive Clock (DCE)
Data Carrier Detect
Transmit Clock (DTE)
Transmit Clock (DCE)
Clear to Send
Transmit Data
Transmit Clock (DCE)
Receive Data
Receive Clock (DCE)
Local Loopback
Request to Send
Data Terminal Ready
Remote Loopback
Data Set Ready
Data Terminal Ready
Transmit Clock (DTE)
Test Indicator
Common
Output
Input
Output
Input
Input
Common
Input
Input
Input
Output
Input
Output
Output
Input
Input
Input
Output
Output
Output
Output
Input
Output
Output
Input
101
103A
104A
105A
106A
107A
102B
109A
115B
109B
113B
114B
106B
103B
114A
104B
115A
141A
105B
108A
140A
107B
108B
113A
142A
BA(A)
BB(A)
CA(A)
CB(A)
CC(A)
AB
CF(A)
DD(B)
CF(B)
DA(B)
DB(B)
CB(B)
BA(B)
DB(A)
BB(B)
DD(A)
LL
CA(B)
CD(A)
RL
CC(B)
CD(B)
DA(A)
TM
Table 7. EIA-530 Interface Signals
22
The EIA-530 Interface
VHSI—EIA-530 Connections
The wiring diagram below shows the connections required to
construct a VHSI—EIA-530 cable. For additional information
required to construct your own cables, see “Cable Construction
Information” on page 15.
TWISTED PAIRS
(MANDATORY)
VHSI
EIA-530
4
22
5
23
6
24
7
25
8
26
9
27
11
29
12
30
13
31
17
35
21
33
34
1
2
19
2
14
15
12
3
16
4
19
17
9
5
13
6
22
20
23
8
10
24
11
18
21
25
7
1
DRAIN WIRE
BRAID
Figure 13. VHSI—EIA-530 Connections
The EIA-530 Interface
23
The V.36/RS-449 Interface
1
PG N D
TXD+
TRXC+
RXD+
RTS+
RTXC+
CTS+
TEST
DSR+
DTR+
DCD+
RLB
RI
CLK+
TI
GND
A pin-out diagram for the
V.36/RS-449 interfaces is shown
in Figure 14. The signal
definitions and names are listed
in Table 8.
20
TXDTRXCRXDRTSRTXCCTSDSRDTRDCD-
C LK -
19
37
Figure 14. V.36/RS-449 Interface
Pin #
Case
4
5
6
7
8
9
10
11
12
13
14
15
17
18
19
22
23
24
25
26
27
29
30
31
35
Signal
Name
Direction
CCITT #
PGND
TXD+
TRXC+
RXD+
RTS+
RTXC+
CTS+
TEST
DSR+
DTR+
DCD+
RLB
RI
CLK+
TI
GND
TXDTRXCRXDRTSRTXCCTSDSRDTRDCDCLK-
Protective Ground
Transmit Data
Transmit Clock (DCE)
Receive Data
Request to Send
Receive Clock (DCE)
Clear to Send
Local Loopback Activation
Data Set Ready
Data Terminal Ready
Data Carrier Detect
Remote Loopback
Ring Indicator
Transmit Clock (DTE)
Test Indicator
DTE Common Return
Transmit Data
Transmit Clock (DCE)
Receive Data
Request to Send
Receive Clock (DCE)
Clear to Send
Data Set Ready
Data Terminal Ready
Data Carrier Detect
Transmit Clock (DTE)
Common
Output
Input
Input
Output
Input
Input
Output
Input
Output
Input
Output
Input
Output
Input
Common
Output
Input
Input
Output
Input
Input
Input
Output
Input
Output
101
103A
114A
104A
105A
115A
106A
141A
107A
108A
109A
140A
125A
113A
142A
102A/B
103B
114B
104B
105B
115B
106B
107B
108B
109B
113B
Table 8. V.36/RS-449 Interface Signals
24
The V.36/RS-449 Interface
VHSI—V.36/RS-449 Connections
The wiring diagram below shows the connections required to
construct a VHSI—V.36/RS-449 cable. For additional information
required to construct your own cables, see
“Cable Construction Information” on page 15.
TWISTED PAIRS
(MANDATORY)
VHSI
V.36 / RS-449
4
22
5
23
6
24
7
25
8
26
9
27
11
29
12
30
13
31
17
35
18
21
33
34
1
2
19
4
22
5
23
6
24
7
25
8
26
9
27
11
29
12
30
13
31
17
35
15
10
14
18
19
20
37
DRAIN WIRE
BRAID
Figure 15. VHSI—V.36/RS-449 Connections
The V.36/RS-449 Interface
25
The X.21 Interface
1
A pin-out diagram for the X.21
interface is shown in Figure 16.
The signal definitions and names
are listed in Table 9.
PG N D
T(A)
C(A)
R(A)
I(A)
S(A)
B(A)
SGND
9
T(B)
C(B)
R(B)
I(B)
S(B)
B(B)
PG ND
8
15
Figure 16. X.21 Interface
Pin #
1/15
2
3
4
5
6
7
8
9
10
11
12
13
14
Signal
Name
Direction
CCITT #
PGND
T(A)
C(A)
R(A)
I(A)
S(A)
B(A)
SGND
T(B)
C(B)
R(B)
I(B)
S(B)
B(B)
Protective Ground
Transmit Data (+)
Control Signal (+)
Receive Data (+)
Indication (+)
Signal Element Timing (+)
Byte Timing (+)
Signal Ground
Transmit Data (-)
Control Signal (-)
Receive Data (-)
Indication (-)
Signal Element Timing (-)
Byte Timing (-)
Common
Output
Output
Input
Input
Input
Input
Common
Output
Output
Input
Input
Input
Input
101
103A
105A
104A
109A
115A
114A
102
103B
105B
104B
109B
115B
114B
Table 9. X.21 Interface Signals
26
The X.21 Interface
VHSI—X.21 Connections
The wiring diagram below shows the connections required to
construct a VHSI—X.21 cable. For additional information required
to construct your own cables, see “Cable Construction Information”
on page 15.
TWISTED PAIRS
(MANDATORY)
VHSI
X.21
1
19
4
22
5
23
6
24
8
26
11
29
12
30
8
2
9
7
14
4
11
6
13
5
12
3
10
DRAIN WIRE
1
BRAID
Figure 17. VHSI—X.21 Connections
The X.21 Interface
27
Back-to-Back Connections
The wiring diagram below shows the connections required to
construct a back-to-back VHSI—VHSI cable. Back-to-back
operations are conducted through the V.36 interface. For additional
information required to construct your own cables, see “Cable
Construction Information” on page 15.
TWISTED PAIRS
(MANDATORY)
VHSI
VHSI
6
24
4
22
4
22
6
24
5
8
26
23
7
9
27
25
11
29
12
30
17
35
13
31
12
30
11
29
7
9
27
25
5
8
26
23
13
31
17
35
1
2
19
1
2
19
DRAIN WIRE
BRAID
Figure 18. VHSI—VHSI Connections
28
Back-to-Back Connections
LED Functionality
Eiconcard S90, S92, and S94
Note The Eiconcard S90 has only one VHSI port.
Configuration Status
This status light illuminates during
configuration to indicate which card and/or
port is being configured. This is most useful
when more than one Eiconcard is installed
in the PC.
Consult the documentation provided with
the configuration software for information
about this status light.
LED Functionality
29
Eiconcard S91
The Eiconcard S91 has three status lights (LEDs) on the end
bracket. Two of these lights indicate the status of the ISDN
connection, and the third identifies the card during configuration.
D-channel Status
The D-channel controls the link to your
ISDN service provider.
Off .......... The line is not active. The cable
may not be connected.
Blinking .. The line is active, but a link can’t
be established. This may be a
symptom of incorrect
configuration.
Steady.... The ISDN line is active and
operating normally.
B-channel Status
The B-channels are used for the link to the
remote ISDN device.
Off.......... There is no connection.
Blinking .. Attempting to connect to the
remote device.
Steady ... The connection is active and able
to transmit data.
Configuration Status
This status light illuminates during
configuration to indicate which card is being
configured. This is most useful when more
than one Eiconcard is installed in the PC.
Consult the documentation provided with
the configuration software for information
about this status light.
30
LED Functionality
Technical Specifications
Technical Data
• PCI bus compatible (32-bit slot)
Eiconcard
CPU/Memory/Flash
Eiconcard S90
25 MHz Motorola 68302 /
1 MB RAM / 1 MB Flash
# of VHSI Ports #of ISDN BRI Ports
1
N/A
Eiconcard S91
25 MHz Motorola 68302 /
1 MB RAM / 1 MB Flash
1
1
Eiconcard S92
33 MHz Motorola 68360 /
1 MB RAM / 1 MB FLASH
2
N/A
Eiconcard S94
33 MHz Motorola 68360 /
8 MB RAM / 1 MB FLASH
2
N/A
Hardware Installation
• Automatic configuration of interrupt request level setting and I/O address
• 32-bit I/O access
External Interface
Eiconcard
External Interface
Eiconcard S90
One 36-pin “D Type” female ports.
One 36-pin “D Type” female port
and one RJ-45 port.
Two 36-pin “D Type” female port.
Two 36-pin “D Type” female ports.
Eiconcard S91
Eiconcard S92
Eiconcard S94
Performance
• 2 Mbps full duplex per physical VHSI port
• 128 kbps per ISDN BRI port (over the “D” channel or the “B” channels)
Power Requirements
•
•
•
•
1.8 A @ +5V (Eiconcard S92 and S94)
1.0 A @ +5V (Eiconcard S90 and S91)
45 mA @ +12V
50 mA @ -12V
Environmental Requirements
•
•
•
•
Operating temperature: 0°C to 50°C
Operating humidity: 0 to 90% (non-condensing)
Barometric operating pressure: 86 to 106 kPascals
Maximum tolerance in power supply variation: +5% to -5%
Technical Specifications
31
VHSI Ports
•
•
•
•
VHSI ports connect to 36-pin high-density male connectors
Support for V.24, V.35, EIA-530, and V.36/RS-449
X.21 with V.11 (X.27) signaling
Internal or external clocking (DTE or DCE) or split (transmit internal,
receive external)
Power Consumption
Warning: Check that power supply will not be overloaded. Maximum
power consumption of the board is stated above. The user should
check that the total power drawn by the host computer, the
Eiconcard S9x, and any other peripherals, does not exceed the
capability of the host power supply unit.
32
Technical Specifications
International Regulatory Information
Regulatory Information for the USA:
WARNING. Changes or modifications to this unit not expressly approved by
Eicon Networks Corporation could void the user's authority to operate the
equipment.
Declaration of Conformity
We:
Eicon Networks Corporation
2155 Chenault Drive, Suite 503
Carrollton, Texas USA 75006
1-800-80-EICON
(972) 417-5500
Fax: (972) 417-5610
Declare under our sole legal responsibility that the products listed below to
which this declaration relates, are in conformity with Part 15 of the FCC Rules.
Operation is subject to the following two conditions:
(1) This device may not cause harmful interference, and
(2) This device must accept any interference received, including interference
that may cause undesired operation.
Note: This equipment has been tested and found to comply with the limits for
a Class B digital device, pursuant to Part 15 of the FCC Rules. These limits are
designed to provide reasonable protection against harmful interference in a
residential installation. This equipment generates, uses and can radiate radio
frequency energy and, if not installed and used in accordance with the
instructions, may cause harmful interference to radio communications.
However, there is no guarantee that interference will not occur in a particular
installation. If this equipment does cause harmful interference to radio or
television reception, which can be determined by turning the equipment off and
on, the user is encouraged to try to correct the interference by one or more of
the following measures:
• Reorient or relocate the receiving antenna.
• Increase the separation between the equipment and receiver.
• Connect the equipment into an outlet on a circuit different from that to
which the receiver is connected.
Consult the dealer or an experienced radio/TV technician for help.
International Regulatory Information
33
FCC Part 68 Notice
This unit complies with Part 68 of the FCC rules. On the bottom of this
equipment is a label that contains, among other information, the FCC
registration number. If requested, this information must be provided to the
telephone company.
An FCC compliant telephone cord and modular plug is provided with this
equipment, designed to be connected to the telephone network or premises
wiring using a compatible modular jack which is Part 68 compliant.
This equipment cannot be used on telephone company-provided coin service.
Connection to party line service is subject to state tariffs.
If this equipment causes harm to the telephone network, the telephone
company will notify you in advance that temporary discontinuance of service
may be required. If advance notice isn't practical, the telephone company will
notify the customer as soon as possible. Also, you will be advised of your right
to file a complaint with the FCC if you believe it is necessary.
The telephone company may make changes in its facilities, equipment,
operations, or procedures that could affect the operation of the equipment. If
this happens, the telephone company will provide advance notice in order for
you to make the necessary modifications in order to maintain uninterrupted
service.
If trouble is experienced with this equipment, please contact us for repair and
warranty information. If the trouble is causing harm to the telephone network,
the telephone company may request you remove the equipment from the
network until the problem is resolved.
Facility Interface
code
Digital Reg.
code
Service Order
code
USOC Jack
Type
S/T
021S5
XD
6.0N
N/A
U
021S5
DE
6.0N
RJ-49 C
Should you experience trouble with this equipment, please contact the address
on the previous page.
34
Regulatory Information for the USA:
Regulatory Information for Canada
NOTICE: The Industry Canada label identifies certified equipment. This
certification means that the equipment meets certain telecommunications
network protective, operational and safety requirements. Industry Canada does
not guarantee the equipment will operate to the user’s satisfaction.
Before installing this equipment, users should ensure that it is permissible to be
connected to the facilities of the local telecommunications company. The
equipment must also be installed using an acceptable method of connection.
In some cases, the company’s inside wiring associated with a single line
individual service may be extended by means of certified connector assembly
(telephone extension cord). The customer should be aware that compliance
with the above conditions may not prevent degradation of service in some
situations.
Warning: For your safety, follow these steps before you remove the
cover from your PC:
1. Turn off the power to your PC and all peripheral devices.
2. Disconnect the power cable.
Repairs to certified equipment should be made by an authorized Canadian
maintenance facility designated by the supplier. Any repairs or alterations made
by the user to this equipment, or equipment malfunctions, may give the
telecommunications company cause to request the user to disconnect the
equipment.
For their own protection, users should ensure that any electrical ground
connections of the power utility, telephone lines and internal metallic water pipe
system are connected together. This precaution is particularly important in rural
areas.
Warning: Users should not attempt to make such connections
themselves, but should contact the appropriate electric inspection
authority, or electrician, as appropriate.
This Class B digital apparatus complies with Canadian ICES-003.
Cet appareil numérique de la classe B est conforme à la norme NMB-003 du
Canada.
Regulatory Information for Canada
35
Regulatory Information for Europe
EU Declaration of Conformity
EN: Eicon Networks Corporation declares that this equipment is in compliance
with the essential requirements and other relevant provisions of
Directive1999/5/EC.
DE: Eicon Networks Corporation erklärt, daß diese
Telekommunikations-endeinrichtung den grundlegenden Anforderungen und
anderen relevanten Bestimmungen der Richtlinie 1999/5/EG entspricht.
DK: Eicon Networks Corporation erklærer, at dette udstyr er i
overensstemmelse med vigtige krav og andre relevante provisioner i Direktiv
1999/5/EC.
ES: Eicon Networks Corporation declara que este equipo cumple con los
requisitos esenciales y otras disposiciones pertinentes de la Directiva
1999/5/EC.
FI: Eicon Networks Corporation takaa, että tämä laite on 1999/5/EC-direktiivin
olennaisten vaatimusten ja muiden lausekkeiden mukainen.
FR: Eicon Networks Corporation déclare que cet équipement répond aux
exigences essentielles et autres dispositions pertinentes de la directive
1999/5/EC.
GR: Eicon Networks Corporation ðÒÔ‚·flÌÂÈ ÛÙÁÌ ·Ì·ÍÔflÌ˘ÛÁ ¸ÙÈ ·ıÙ‹ Ù·
ÏÁ˜·ÌfiÏ·Ù· ›˜ÔıÌ ÙÈÚ ‚·ÛÈÍ›Ú ·ð·ÈÙÔ˝ÏÂÌÂÚ ðÒԉȷ„Ò·ˆ›Ú Í·È ıð¸ÍÂÈÌÙ·È
ÛÙÈÚ ıð¸ÎÔÈðÂÚ Û˜ÂÙÈÍ›Ú ‰È·Ù‹ÓÂÈÚ ÙÁÚ œ‰Á„ÁÙÈÍfiÚ 1999/5/EC.
IC: Eicon Networks Corporation lýsir hér með yfir að þetta tæki uppfyllir
grunnkröfur og tengd ákvæði ESB tilskipunar nr. 1999/5/EC.
IT: La Eicon Networks Corporation certifica che la presente apparecchiatura
è conforme ai requisiti di legge stabiliti nella direttiva 1999/5/EC.
NL: Eicon Networks Corporation verklaart, dat deze uitrusting in
overeenstemming is met de essentiële vereisten en andere relevante
bepalingen van Richtlijn 1999/5/EC.
NO: Eicon Networks Corporation erklærer herved at dette utstyret oppfyller de
vesentligste krav og relevante bestemmelser i direktiv 1999/5/EF om radio- og
teleterminalutstyr.
PT: A Eicon Networks Corporation declara que este equipamento está de
acordo com os requisitos básicos e outras provisões relevantes da Directiva
1999/5/EC.
SE: Eicon Networks Corporation förklarar att denna utrustning
överensstämmer med de väsentliga krav och regler som finns i direktivet
1999/5/EG.
To receive a detailed R&TTE Declaration for this product please send a request
specifying the product name to the following e-mail address:
certification@eicon.com.
36
Regulatory Information for Europe
Safety Status: SELV
No voltages within this equipment exceed SELV voltages. All interconnection
points and ports are SELV.
User/Installer Instructions for the United Kingdom
Important Safety Considerations When Installing Into A Host
Computer System
The Eiconcard S9x is a single PCI card.
Installation Within A Spare Slot Position
Warning: It is essential that, when other option cards are introduced
which use or generate a hazardous voltage, the minimum creepages
and clearances specified in the table below are maintained. Suitable
user protection to ensure compliance with EN60950/A4 should be
present on the card. A hazardous voltage is one which exceeds 42.4V
peak a.c or 60V d.c. If you have any doubt, seek advice from a
competent engineer before installing other adapters into the host
equipment.
The equipment must be installed such that with the exception of the
connections to the host, clearance and creepage distances shown in the table
below are maintained between the card and any other assemblies which use
or generate a voltage shown in the table below.
Clearance
X mm
Creepage
Y mm
Voltage used or generated by other
parts of the host or expansion card
Vrms or Vdc
2.0
2.4 (3.8)
up to 50
2.6
3.0 (4.8)
up to 125
4.0
5.0 (8.0)
up to 250
4.0
6.4 (10.0)
up to 300
Table 10. Creepage Distances
The larger distance shown in brackets applies where the local environment
within the host is subject to conductive pollution or dry non-conductive pollution
which could become conductive due to condensation. Failure to maintain these
minimum distances would invalidate the approval.
The clearance distance X is the shortest distance in air between two points.
The creepage path Y (along surfaces) is the shortest distance between the
same two points.
Regulatory Information for Europe
37
Regulatory information for Australia
• This customer equipment shall only be installed in a PC that requires the
use of a tool to gain access to internal parts (e.g. this customer equipment
must not be installed in a PC with a ‘flip lid’).
• Proper installation of the Eiconcard S9x card requires that it is screwed to
the metal backplate of the computer. This ensures proper grounding, which
is necessary for safety purposes.
• This customer equipment may only be installed in host equipment where
there is at least 2 mm of air gap between the customer equipment and
adjacent boards (PCBs).
• Only ACA permitted line cord set(s) or made from ACA certified components shall be used as replacements with this customer equipment.
Eiconcard S9x
Warning: This customer equipment is to be installed and maintained
by service personnel as defined by AS/NZS 3260 Clause 1.2.14.3
Service Personnel. It may be hazardous if your computer is not
properly plugged in and grounded.
38
Regulatory information for Australia
203-227-01
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