apollo FXPIO Intelligent Input Output Unit Instruction Manual
- June 10, 2024
- APOLLO
Table of Contents
- apollo FXPIO Intelligent Input Output Unit
- Product Information
- Product Technical Information
- Product Usage Instructions
- LED Status Indicator
- Maintenance
- Technical Information
- Installation
- Addressing
- Connectivity Examples
- Troubleshooting
- Modes
- References
- Read User Manual Online (PDF format)
- Download This Manual (PDF format)
apollo FXPIO Intelligent Input Output Unit
Product Information
The Intelligent Input/Output Unit is a product designed for use in XP95 or Discovery Protocols. It is an EN54-13 type 2 device that allows for connectivity with other devices in a fire alarm system. The unit is equipped with an LED status indicator and a relay output contact rating. It has a maximum loop current of Icmax and operates within a specific temperature range. The product comes with a technical information document (PP2553) that can be requested for additional technical information.
Product Technical Information
- Part No: SA4700-102APO
- Product Name: Intelligent Input/Output Unit
- Supply Voltage
- Quiescent Current
- Power-up Surge Current
- Relay Output Contact Rating
- LED Current
- Maximum Loop Current (Icmax; L1 in/out)
- Operating Temperature
- Humidity
- Approvals
Product Usage Instructions
- Drill holes where required.
- Remove knockouts and t glands where required.
- Note the alignment marks.
- The 8th segment must be set to `0′ for Discovery / XP95 operation.
- Address the unit by setting the address using Table 1 Addressing. For XP95 / Discovery Systems, sets the address by selecting the corresponding segment number. For CoreProtocol Systems, sets the address by selecting the corresponding segment number and enabling/disabling LED, failsafe mode, and relay output.
- Refer to Fig. 1 for standard resistive monitoring mode or Figs 2 & 3 for normal open/closed monitoring modes (compatible with CoreProtocol only).
- Carry out all CI tests before connecting the interface. Refer to Figs 1, 2 & 3 for connectivity instructions.
- Install EN54-13 type 1 device next to the module with no transmission path according to EN 54-13.
- Do not over-tighten screws.
LED Status Indicator
- Continuous Red: Relay Active
- Continuous Yellow: Fault
- POLL/Flashing Green: Device Polled
- Continuous Yellow: Isolator Active
- Continuous Red: Input Active
- Continuous Yellow: Input Fault
| RLY | Continuous Red | Relay Active |
|---|---|---|
| Continuous Yellow | Fault | |
| POLL/ ISO | Flashing Green | Device Polled |
| Continuous Yellow | Isolator Active | |
| IP | Continuous Red | Input Active |
| Continuous Yellow | Input Fault |
Note:
Not all LEDs can be on simultaneously.
Commissioning
The installation must conform to BS5839–1 (or applicable local codes).
Maintenance
Removal of the external cover must be carried out using a flat screwdriver or similar tool. No electrical supply greater than 50V AC rms or 75V DC should be connected to any terminal of this Input/Output Unit. For compliance with Electrical Safety Standards, the sources switched by the output relays must be limited to a 71V transient over-voltage condition. Contact Apollo for more information.
Unit damage. No electrical supply greater than 50V ac rms or 75V dc should be connected to any terminal of this Input/Output Unit.
Note:
For compliance with Electrical Safety Standards, the sources switched by the
output relays must be limited to a 71V transient over-volt-age condition.
Contact Apollo for more information.
Technical Information
All data is supplied subject to change without notice. Specifi cations are typical at 24V, 25°C and 50% RH unless otherwise stated.
- Supply Voltage 17-35V dc
- Quiescent Current 500μA
- Power-up Surge Current 900μA
- Relay Output Contact Rating 1A at 30V dc or ac
- LED Current 1.6mA per LED
- Maximum Loop Current (Icmax; L1 in/out) 1A
- Operating Temperature –40°C to 70°C
- Humidity 0% to 95% RH (no condensation or icing)
- Approvals EN 54-17 & EN 54-18
For additional technical information please refer to the following documents which are available on request.
- PP2553 – Intelligent Input/Output Unit
Installation
Addressing
| XP95 / Discovery Systems | CoreProtocol Systems |
|---|
| 1| Sets the address| Sets the address
2
3
4
5
6
7
8| Set to ‘0’ (Fault value is returned if set to ‘1’)
FS| Enables failsafe mode (compliant with BS7273-4 for door holders)|
Enables failsafe mode (compliant with BS7273-4 for door holders)
LED| Enables/Disables LED (except Isolator LED)| Enables/Disables LED
(except Isolator LED)
Note:
On mixed systems addresses 127 and 128 are reserved. Refer to the system’s
panel manufacturer for further information.
Address Setting Examples
Connectivity Examples
Fig. 1 Standard resistive monitoring mode
Fig. 2 Normally open monitoring mode (compatible with CoreProtocol only)
Fig. 3 Normally closed monitoring mode (Compatible with CoreProtocol only)
When operated under XP95 or Discovery Protocols, EN54-13 type 2 devices can be connected. In case EN54-13 type 1 devices need to be connected they must be installed directly next to this module, with no transmission path according to EN 54-13.
Troubleshooting
Before investigating individual units for faults, check that the system wiring is fault-free. Earth faults on data loops or interface zone wiring may cause communication errors. Many fault conditions are the result of simple wiring errors. Check all connections to the unit.
Problem: No response or missing fault condition reported
Possible Causes:
- Incorrect address setting
- Incorrect loop wiring
- Incorrect input wiring
- Incorrect wiring control panel has incorrect cause-and-effect programming
Problem: Relay fails to operate
Possible Causes:
- Incorrect loop wiring
- Incorrect address setting
- Dual address
- Loop data fault, data corruption
- Incompatible control panel software
- Short-circuit on loop wiring
- Wiring reverse polarity
- Too many devices between isolators
Problem: Analogue value unstable
Possible Causes:
- Incorrect wiring
- The control panel has incorrect cause-and-effect programming
- Incorrect end-of-line resistor fitted
- Incompatible control panel software
- Loop data fault, data corruption
Problem: Constant Alarm
Possible Causes:
- Incorrect wiring
- The control panel has incorrect cause-and-effect programming
- Incompatible control panel software
- Loop data fault, data corruption
Problem: Isolator LED on
Possible Causes:
- Incorrect wiring
- Short-circuit on loop wiring
- Loop data fault, data corruption
Problem/Possible Cause
- No response or missing
- Incorrect address setting
- Incorrect loop wiring
- Fault condition reported
- Incorrect input wiring
- The relay fails to operate
- Incorrect wiring
- The control panel has incorrect cause-and-effect programming
- Relay energized continuously
- Incorrect loop wiring
- Incorrect address setting
- Analogue value unstable
- Dual address
- Loop data fault, data corruption
- Constant Alarm
- Incorrect wiring
- Incorrect end-of-line resistor fitted
- Incompatible control panel software
- Isolator LED on
- Short-circuit on loop wiring
- Wiring reverse polarity
- Too many devices between isolators
Modes
| Mode | Description |
|---|---|
| 1 | DIL Switch XP Mode |
| 2 | Alarm Delays |
| 3 | Output and N/O input (can be equivalent for Output only) |
| 4 | Output and N/C input |
| 5 | Output with Feedback (N/C) |
| 6 | Failsafe Output with Feedback (N/C) |
| 7 | Failsafe Output without Feedback |
| 8 | Momentary Input Activation Sets Output Relay |
| 9 | Input Activation Sets Output |
CoreProtocol-enabled systems only
© Apollo Fire Detectors Limited 2016
- Apollo Fire Detectors Limited, 36 Brookside Road, Havant, Hampshire, PO9 1JR, UK
- Tel: +44 (0) 23 9249 2412
- Fax: +44 (0) 23 9249 2754
- Email: [email protected].
- Website: www.apollo-fire.co.uk.