Harrington Signal HS-3200 - Install Manual User Manual
Fire alarm, Harrington
Table of contents
Document Outline
- HS-3100_3200 installation cover.pdf
- LT-2000HAR HS-3100_3200.pdf
- Table of Contents
- List of Tables & Figures
- 1.0 Technical Information
- 2.0 Technical Specifications
- 3.0 Installation
- 3.1 Unpacking the HS-3100 or HS-3200
- 3.2 Mounting and Assembling the HS-3100/HS-3200
- Surface and Flush Mounting
- 1. Determine a suitable location for mounting the FACP. Keep in mind that surrounding walls, fixtures, must not hinder access to internal components. etc.
- 2. Determine the size and location of conduit entrances. The Backbox provides various knockout locations, however should it be n...
- 3. The enclosure must be mounted to provide a 135o (minimum) angle of rotation of the outer door to insure easy removal or assembly.
- 4. Mark placement of mounting hardware, drill holes and install plugs (if necessary).
- 5. Secure the FACP to the wall using hardware suitable to the wall construction. Support backbox in place while inserting hardware and ensure that the backbox is level and plumb before tightening.
- Replacing the Outer Door
- 1. Unlock the Door with the key provided.
- 2. Detach the grounding strap (Qty: 2) from the backbox by removing the #6 flange nuts (Qty: 2) that are attached to the studs on the backbox. Reattach the #6 flange nuts (Qty: 2) to the studs to prevent them from getting lost or discarded.
- 3. Open the Door to approximately 135o and lift up to remove the outer door from the backbox, store door in a safe place.
- Removing the HS-3100/3200 Electronics
- 1. Remove the #6 flange nuts (Qty: 2) that lock down the inner door. Reattach the #6 flange nuts (Qty: 2) to the studs to prevent them from getting lost or discarded.
- 2. Open the inner door and disconnect the display harness from either the Display Board or the Main Board.
- 3. Detach the grounding strap (Qty: 1) from the backbox by removing the #6 flange nut (Qty: 1) that is attached to the stud on the backbox. Reattach the #6 flange nut (Qty: 1) to the stud to prevent them from getting lost or discarded.
- 4. Open the inner door approximately 90° and lift up to remove the inner door, store door in a safe place.
- 1. Detach the harness from the Display Board.
- 2. Remove the #8 flange nuts (Qty: 4) from the studs on the backbox holding onto the back plate. Remove back Plate Electronic panel and store in a safe place. Reattach the #8 flange nuts to the studs to prevent them from getting lost or discarded.
- 3.3 Internal Assembly
- 3.4 Wiring
- Power Connections
- External Battery Cabinet Wiring
- Addressable Circuit Connections
- Notification Appliance Circuit Connections
- Function Relay Circuit Connections
- EVAX System Wiring
- 3.5 Maximum Wiring Length for Addressable Circuits
- Note: Distances noted in this table account for the total length of wire, from the panel to furthest device and back to the panel.
- 3.6 Maximum Wiring Length for Bell Circuits
- Note: Distances noted in this table account for the total length of wire, from the panel to furthest device and back to the panel.
- 4.0 Appendix A: Compatible Addressable Devices
- 5.0 Appendix B: Battery Calculations & Compatible Batteries
- 5.1 Battery Calculation Worksheet
- 1. Enter the number of each installed module type in the ’Quantity’ column next to the appropriate module description.
- 2. For each quantity entry, multiply the value in the ’Quantity’ column by the value in the ’Standby’ column and enter the value in the ’Total Standby’ column.
- 3. For each quantity entry, multiply the value in the’Quantity’ column by the value in the ’Alarm’ column and enter the value in the ’Total Alarm’ column.
- 4. Add all the values in the ’Total Standby’ column and put the answer in the ’Total Standby’ box marked A.
- 5. Add all the values in the ’Total Alarm’ column and put the answer in the ’Total Alarm’ box marked B.
- 6. Enter the required standby time (hours) in box C, and the total alarm time (minutes) in the alarm time box D.
- 7. Substitute the values from boxes A through D in the battery calculation formula and the result is the recommended minimum battery capacity in amp-hours.
- 5.2 Battery Selection Calculations
- 1. From previous calculations, locate total Standby Current (A) and convert to amperes. A = ________ (Note: amperes = mA ÷ 1000; µA ÷ 1,000,000; examples: 250 mA = 0.25 A; 1500 µA = 0.0015 A)
- 2. Identify Standby Time (C), in hours. C = ______ (typically 4, 24, 48, or 60 hr)
- 3. From previous calculations, locate total Alarm Current (B) in amperes. B = ______
- 4. Identify Alarm Time (D) in minutes. D = ______ (typically 5, 10, or 15 min)
- 5. Using the values in Steps 1-4, perform an Initial Battery Calculation per the following: (A x C) + (0.0167 x B x D) = _______ Ah (Ah = ampere hours)
- 6. Select a battery size LARGER than the number from the Initial Battery Calculation from the following list of SOTA batteries using the 20 Hour Rating value:
- 7. Minimum Required Battery Capacity Calculation. (to account for battery aging, a 1.17 multiplier is included) Minimum battery capacity in Ah = 1.17 x [(A x C x SDF) + (0.0167 x B x D x ADF)] = _______
- 8. If the battery size initially selected is smaller than the result of step 9 above, repeat the calculations using a larger battery size.
- 5.1 Battery Calculation Worksheet
- 6.0 Appendix C: Compatible Synchronized Notification Appliances
- Back Page - Harrington.pdf