Vanderbilt PDM-I12T, PDM-I18T - Motion Detector Installation Instructions

		Details for ordering
PO-C20	V54539-F122-A100	Curtain set (4 pcs.) for PDM-I12
PO-C30	V54539-F123-A100	Curtain set (4 pcs.) for PDM-I18
PZ-MBG2	V54539-F124-A100	Mounting bracket G2 for PDM
PZ-CA	V54539-F125-A100	1/4'' adapter for camera bracket set (4 pcs.)
PO-CL	V54539-F126-A100	Pet-Clip for PDM-I12
PO-FM	V54530-H101-A100	Flush Mount Housing Base for PDM-I12
PO- MHB12	V54530-H102-A100	Metalliz. Housing Base for PDM-I12
PO-PA....	V54539-F....	EOL PCB....

This device must only be connected to power sources which comply with Section 2.5 of the EN60950 -1 standard ("limited power source").

EC Declaration of Conformity

Hereby Vanderbilt International Ltd. declares that this equipment type is in compliance with all relevant EU Directives for CE marking. From 20/04/2016 it is in compliance with Directive 2014/30/EU (Electromagnetic Compatibility Directive).

The full text of the EU declaration of conformity is available at the following internet address:
http://pcd.vanderbiltindustries.com/doc/PDM-line.

Product description

The detector identifies movements within the room that is being monitored (wide-angle mirror: Fig. 1, 2; curtain mirror (not scope of delivery): Fig. 12, 13) and triggers an alarm. It is particularly sensitive to movements that are perpendicular to the effective zones (Fig. 1, 2, 12, 13/arrows). Detector operation is based on passive infrared technology (PIR). The antimask function ensures that any tampering in close proximity to the detector can be detected reliably. The sabotage surveillance feature is able to detect when an attempt is being made to remove the detector forcefully or to open it. In such an event, it triggers a sabotage alarm.

Scope of delivery: 1 intrusion detector, 1 cable tie

Requirements

The product may only be installed by electrically skilled personnel and in accordance with the applicable regulations. Incorrect positioning reduces the sensitivity or may result in false alarms.

The detector is suitable for use in interior areas (Fig. 6/A) as part of a professional alarm system.

When positioning the product, please:

• Observe the correct mounting height (Fig. 1, 2, 12, 13).
• Observe the correct distance in relation to moving objects (fans/blowers, doors, etc.) and fluorescent lamps (at least 0.5 m) (Fig. 6/B).
• Do not expose the product to direct or reflected sunlight (Fig. 6/C).
• Do not mount the product above heaters/radiators or directly in hot or cold air streams (Fig. 6/ D).
• Do not aim the effective range at areas that are subject to rapid changes in temperature and/or changes in air humidity.
• Only mount the product on solid walls (Fig. 6/E).
• Do not mount the product outdoors (Fig. 6/F).
• Do not remove or damage printed circuit boards.

Mounting the detector

1. If necessary, remove the opening cover (Fig. 3/Œ).
2. Insert a screwdriver into the opening (Fig. 3/) and either
   1. Push the screwdriver upwards or
   2. Turn the screwdriver
      Then lift the cover (Fig. 3/Ž) off the detector base (Fig. 3/).
3. Based on the mounting arrangement (Fig. 4/A/B/C) and the angle of inclination (Fig. 4/I/II), remove the relevant screw and cable cut-outs and screw on the detector base. From a height of 2.6 m up to a maximum of 3.0 m, mount the detector at a 2° angle of inclination (Fig. 4/II), if necessary attach the detector base to the detector holder (separate instructions).

In order for the sabotage surveillance feature to work fully (incl. tear-off monitoring), at least one screw must be secured at position  (Fig. 4).

To retain IP41 class residual openings of cable feedthroughs and screw holes have to be closed by means of a suitable sealing material (silicone or acrylic).

4. To relieve the strain on the connection cable, route the wires through the poles below the terminal block (Fig. 4/Œ) or fix cable sheath by means of cable binder close to its outlet hole in the detector base.
5. Select the connection to the intruder alarm control panel (IACP) and wire the detector (Fig. 7).
6. Set the required parameters on the DIP switch (Fig. 5/Ž)
7. Fit the cover on the detector base, making sure that it snaps into place completely.
8. If necessary, insert the opening cover (in position  on delivery (Fig. 5).

Connecting the detector to the intruder alarm control panel (IACP)

The integrated End-of-Line concept (EoL) not only makes it possible to monitor the connection line between the detector and the IACP, it also supports 2 different connection methods (2-wire and 4-wire). For the purpose of signalling the detector states, the detector features 3 resistors ("Fault" (Fig. 5/F), "Intrusion" (Fig. 5/I) and "EoL" (Fig. 5/EoL)), plus a sabotage contact (T).

The detector is delivered with the following resistance values (appropriate for Vanderbilt SPC IACP): R_I = 4.7 kW; R_F = 2.2 kW; R_EoL = 4.7 kW. If you are using another type of IACP,

it may be necessary to tap the resistors and T separately and/or replace the resistors. An EoL PCB (accessory, Fig. 10/Œ) can be used as an alternative to the resistors.

Activating/deactivating EoL

Use jumper 1 (Fig. 5/Œ) to specify whether the detector is to be connected to the IACP with or without line monitoring. Top position (as delivered): R_EoL active; bottom position: R_EoL shorted (R_EoL = 0 W).

Replacing resistors

1. Pull out the resistor you wish to replace.
2. Bend and shorten the legs of the new resistor (¼ watt, line diameter 0.4...0.56 mm) in accordance with the template (Fig. 5/).
3. Insert the resistor into the contact holes as far as it will go and bend it into the relevant compartment of the detector.

Two-wire connection

All the resistors and T are tapped in series (connection to terminals C1/C3, Fig. 7).

Four-wire connection

1. Jumper 2 (Fig. 5/) in top position (as delivered): R_I and R_EoL at C1/C2, T and R_F at C2/C3 (Fig. 7/A).
2. Jumper 2 in bottom position: R_I, R_EoL and T at C1/C2, R_F at C2/C3 (Fig. 7/C).

For the purpose of performing line monitoring on a) T and R_F or b) R_F via C2/C3, an addi tional R_EoL must be connected via terminal SP (Fig. 7/B).

WT (walk test) and U (unset) control inputs

An open control input is "HIGH" (internal pull-up). Triggering on "active HIGH" requires the connection of a resistor (2 kΩ...47 kΩ) downstream of 0 V.

Settings

WT input polarity (DIP1)

• In the case of a non-wired WT control input (Fig. 7/B), the LED signals are switched on or off via DIP1 (configured on delivery: LED signals ON).
• With a wired WT control input, the walk test can be remote controlled using the IACP. You can use DIP1 to change over the WT input polarity

U input polarity (DIP1)

• In the case of a non-wired U control input (U, Fig. 7/B), DIP1 is used to switch over from the "unset" state (configured on delivery) to the "set" state.
• With a wired U control input, the state can be remote controlled using the IACP. You can use DIP1 to change over the U input polarity

Detector sensitivity (DIP2–DIP3)

Set the PIR sensitivity in accordance with the table below.

Sensitivity	DIP2	DIP3	Application
High	OFF	ON	Enhanced detection requirements
Standard	OFF	OFF	Living space, office
Increased stability	ON	ON	Rooms with minor interference sources
Maximum stability	ON	OFF	Rooms with major interference sources

In the case of VdS systems, use the "High", "Standard" or "Increased stability" sensitivity setting.

If the longest wall in the room is less than 5m, do not use the "high" sensitivity setting.

Antimask function sensitivity (DIP5)

Use DIP5 to select the sensitivity of the antimask function. Depending on the masking material, the range of the antimask surveillance is approximately 0.30m using standard sensitivity settings (DIP5 OFF) or 0.5m for VdS-compliant operation (DIP5 ON).

Antimask function signalling (DIP6)

Use DIP6 to specify whether an antimask message should be output as a "Fault" only or as a "Fault" plus "Intrusion" (VdS+EN, Fig. 9).

If DIP6 is switched to ON and the detector is in the „set" state, then anti masking messages are not output.

Antimask mode (DIP7)

• Real-time (default)
  The antimask message follows the detector status. A masking event is only indicated while the detector is actually being obscured.
• Latch
  Once activated, the antimask message remains displayed until it is cancelled by performing an antimask function reset

Overview of settings

	DIP	OFF (default)	ON
Walk test / unset (non-wired inputs)	1	On	Off
Input polarity to activate Walk test / unset		High (+12 V)	Low (0 V)
PIR sensitivity	2	Detector sensitivity (DIP2–DIP3)
	3
	4
Antimask sensitivity	5	Standard	High (VdS1)
Antimask signalling	6	AM: fault only	AM: fault and intrusion (EN2+VdS1)
Antimask mode	7	Real-time	Latch
-	8

¹For VdS-compliant operation, set DIP5 and DIP6 to ON

²For EN-compliant operation, set DIP6 to ON

Commissioning

1. Switch on the power supply.
2. Wait 30 s until the detector is ready (LED signals during start-up phase: Fig. 8/A or 8/F depending on the input voltage at U and WT and DIP1). In the operating states shown in Fig. 8/F, the detector performs the autowalk test for 3 minutes at the end of the start-up phase (alarm signalling: Fig. 8/G instead of 8/B).

For longer walk test times, activate the unset and walk test modes.

To deactivate LED signalling during the start-up and autowalk test phases, switch either the U or WT control input back and forth after switching on the detector.

During start-up phase the area in close proximity to the detector (<0.5m) must be clear of any temporarily present objects (e.g. ladders) as well as persons.

3. Carry out a walk test to check that an alarm is triggered throughout the entire effective range of the detector (Fig. 1, 2, 12, 13). The detector must also trigger an alarm when the peripheral zones are crossed (Fig. 8/B and 8/G).

Pay attention to the LED signals for the various events (Fig. 8).

Operation and maintenance

Antimask function reset

In the event of masking (detector has been obscured and it is in Latch mode)

• Method 1 (with wired inputs U and WT):

1. Activate unset mode.
2. Deactivate walk test mode
3. Activate walk test mode
4. Remove the masking and trigger an alarm by moving in front of the detector (motion alarm is signalled by the red LED going out for 2.5 s).
5. Deactivate walk test mode.
6. Wait at least 30 s for the set mode to reactivate.
7. Activate set mode.

• Method 2: Restarting by disconnecting the power supply

1. Disconnect the power supply.
2. Restore the power supply.

In the interest of ensuring operational reliability, detector covers that have been sprayed must be replaced; simply cleaning them is not sufficient.

Clean heavily dusty detector window with dry and soft cloth. Afterwards conduct anti-mask reset procedure.

If the detector is used in rooms with fog machines it is recommended to conduct the antimasking reset procedure after each fogging.

Check the detection range after every reset or restart.

Function monitoring (selftest)

The detector features a selftest that runs continuously. A malfunction (e.g. a sensor failure) is reported as a "fault" and, if the unset and walk test modes are activated, it is signalled via the yellow LED as shown in Fig. 8.

Memory displays

An alarm that was generated during the last set period is stored in the memory. A stored alarm is then displayed when unset mode is activated and walk test mode is deactivated (Fig. 8/H). The next time the status of the system changes to "set", the alarm memory is reset.

Sealing the detector

If there is a requirement for the detector to be sealed, stick the adhesive seal over the joint between the detector base and the cover on the top of the detector.

Maintenance

Check the detector regularly (at least once a year) to ensure that it is functioning correctly (walk test and antimasking test), that it is free of dirt and that it is securely attached. If necessary, clean and/or secure the detector.

Faults

In case of faults: http://www.service.vanderbiltindustries.com/.

Options

Curtain Mirror PO-C20/30

With their overlapping effective zones, curtain mirrors create a secure coverage area.

1. Open the detector.
2. Twist the wide-angle mirror located on the device (Fig. 11/Œ) to remove it from the cover (if necessary, lever it out from under the device using a screwdriver) and replace it with a curtain mirror.
   
3. Carry out a walk test.

Pet Clip PO-CL (PDM-I12T only)

Pet immunity (i.e. the ability of the equipment to ignore small animals) can be enabled by installing a pet clip ("Pet clip" instructions). If pet clip is used the motion detector is no longer EN50131-22 grade 3 compliant. The application of the pet-clip does not change the detection area (see Fig. 1)

The pet clip is not suitable if you are using a curtain mirror.

Mounting Bracket PZ-MBG2

If PZ-MBG2 is used the motion detector is no longer EN50131-2-2 grade 3 compliant.

Technical data

Connections		Fig. 7
Power supply		DC 9...16 V (DC 12 V, nominal)
Max. ripple		1 VSS
Current consumption Idle state LED ON		3.9 mA (rms), 4.6 mA (max peak) 5.9 mA (rms), 6.6 mA (max peak)
Start-up time		30 s
Operating temperature		-10°C...+55°C
Storage temperature		-20°C...+60°C
Air humidity		< 95 %RH, non-condensing
Housing protection category		IP41/IK02
Control inputs		Vlow, max = 1.5 V Vhigh, min = 3.5 V RPull-up (internal) = 470 kΩ
Load rating of outputs		DC 30 V/0.1 A
Resistors	RI RF REoL	4.7 kΩ ±5%, 250 mW 2.2 kΩ ±5%, 250 mW 4.7 kΩ ±5%, 250 mW
EN50131-2-2 approval		Grade 3
EN50130-5 environmental class		Class II
VdS 2312		Class C
VdS 2110		Class II

Further requirements of NF&A2P
NF & A2P certificate 3 shields No. 2632200001B0, 2632200001A0
Repository NF324-H58
EN50131-2-2 Grade 3 Class II environment

Certifying body:
CNPP Cert.: www.cnpp.com

AFNOR Certification: www.afnor.org