Instruction Manual
Table Of Contents
- The Eclipse Omega Matrix System: An Overview
- Operation
- The Eclipse Omega Matrix and Circuit Cards
- Front-Panel Controls and Lights
- Central Processor Unit (CPU) Card Description
- Analog Port Card Description
- Power Supply Description
- Connecting the Matrix
- Eclipse Fiber Linking
- Eclipse E-QUE Interface
- Eclipse IVC-32 Interface
- Eclipse LMC-64 Interface
- Installation
- Reconnecting the CPU Card’s Backup Battery
- Verifying the Shipment
- Unpacking the System
- Installing the Eclipse Omega Matrix
- Installing Power Supplies
- Installing the Rear RJ-45 Connector Panels
- Installing Rear RJ-45 Connector Panels in the Field
- Installing CPU Cards
- Installing Analog Port and Expansion Cards
- Wiring Audio Devices to the Matrix
- Wiring CPU Card Interfaces
- GPI/RLY Interface Connector
- RS-232 DB-9 Connector
- Alarm I/O Connector
- General-Purpose Outputs Connector (GP OUT)
- General-Purpose Inputs Connector (GP IN)
- Local Area Network Connectors (LAN1 and LAN2)
- E1/T1 Matrix to Matrix Crossover Cable
- E1/T1 Straight Cable Connections
- E1 to FreeSpeak/CellCom Antenna Pinout
- Maintenance
- Specifications
- Glossary
- Limited Warranty
- Technical Support & Repair Policy
Clear-Com
Eclipse Omega Instruction Manual
7-20
Non-Isolated Mode
Figure 7-13 shows the non-isolated connection.
Figure 7-13: Non-Isolated Connection to GPI Connector
To cause an input to detect an active signal, current must flow from the
relevant input pin.
The external device should draw no current to cause an inactive input
and at least 5 mA to cause an active input. The opto-isolator drive line
contains a 1.5 kOhm resistor to limit the current through the
opto-isolator. Therefore the input pins can be connected directly to a
ground pin to cause an active input.
The voltage level at the external input pin should not be allowed to go
below ground or above +6 V with respect to ground.
INPUT 1
EXTERNAL INPUT 2
INPUT 2
R29 1.5K
R30 1.5K
U
MOCD207-M
1
3
2
4
8
7
6
5
EXTERNAL INPUT 1
R
33K2
+3V3
R
33K2
+3V3
+3V3