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Fortesting, calibrated spring-operated hammer(s) as defined in Annex E should be used.

For each standard test material a specimen according to Annex A shall be used and shall be fulfilled for each specimen before the tests are carried out as preconditions.

This test will verify the detection performance for sensitivity and area of coverage according to the supported conditions claimed by the manufacturer for a gross attack.

The spring-operated hammer shall be adjusted to the material dependent value given in Annex G. The hammer shall be placed on the material at a distance from the centre of the sensor element of the shock detector according to Annex G on the same side as the sensor element in spring loaded mode. The spring shall be released. The output of the detector shall be monitored if an alarm signal or message had been generated.

Between each test, a minimum pause of 5 min shall apply, if not advised differently by the manufacturer, to allow the detector to go into normal mode.

This test shall be carried out ten times in different positions according to the radius given in Table G.1 for each material, at least one test should be carried out on the glass, the fixed frame and on the movable frame when the test for the framed window is performed.

If a higher distance for each material is claimed to be supported by the manufacturer, and/or other material, the same test shall be carried out for each material and distance as stated ten times.

Pass/Fail criteria: For each standard material and each minimum distance according to Annex G and each additional material or distance claimed to be supported by the manufacturer, at least nine out of ten tests for each material and/or distance shall be detected to pass this test.

This test will verify the detection performance for sensitivity and area of coverage according to the supported conditions claimed by the manufacturer for a low shock integration attack.

One or more spring-operated hammer(s) shall be adjusted to the material dependent value given in Annex G. The hammer shall be placed on the material at a distance from the centre of the sensor element of the shock detector according to Annex G on the same side as the sensor element in spring loaded mode. The spring shall be released. The output of the detector shall be monitored if an alarm signal or message had been generated. To reflect the low shock integration, this should be performed ten times with a frequency of 1 Hz to form one test.

Between each test, a minimum pause of 5 min shall apply, if not advised differently by the manufacturer, to allow the detector to go into normal mode.

This test shall be carried out ten times in different positions according to the radius given in Table G.1 for each material, at least one test should be carried out on the glass, the fixed frame and on the movable frame when the test for the framed window is performed.

If a higher distance for each material is claimed to be supported by the manufacturer, and/or other material, the same test shall be carried out for each material and distance as stated ten times.

Pass/Fail criteria: For each standard material and each minimum distance according to Annex G and each additional material or distance claimed to be supported by the manufacturer, at least nine out of ten tests for each material and/or distance shall be detected to pass this test.

Switch on the shock detector power with the indicator enabled, if available, and allow 180 s for stabilisation. Carry out the basic detection test. Note the response. After the specified time interval between signals carry out the basic detection test. Note the response. Disable the intrusion indicator, if available and supported. After the specified time interval between signals carry out the basic detection test. Note the response.

Pass/Fail Criteria: The shock detector shall generate an intrusion signal or message in response to each of the three basic detection tests. For the first and second basic detection tests, the intrusion signal or message and the intrusion indicator, if available, shall both respond. For the third basic detection test there shall be no indication, if available and supported.

Carry out the basic detection test to verify that the shock detector is operating.

Pass/Fail Criteria: The shock detector shall generate an intrusion signal or message and shall not generate tamper or fault signals or messages.

If a shock detector provides a local self test, either optional or mandatory according to Table 1, monitor the shock detector during a local self test.

Pass/Fail Criteria: The shock detector shall not generate any intrusion, tamper or fault signals or messages.

If a shock detector supports a remote self test, either optional or mandatory according to Table 1, monitor the shock detector during a local self test. Note the response.

Pass/Fail Criteria: The shock detector shall generate an intrusion signal or message and shall not generate tamper or fault signals or messages.

Short the sensor signal output to ground or carry out an equivalent action as recommended by the manufacturer.

If a shock detector supports a local self test, either optional or mandatory according to Table 1 monitor the shock detector during a local self test.

If a shock detector supports a remote self test, either optional or mandatory according to Table 1, during a remote self test.

For shock detectors with more than one sensor signal input, the test(s) shall be repeated for each output individually.

Pass/Fail Criteria: (local self test): The shock detector shall generate a fault signal or message and shall not generate intrusion or tamper signals or messages.

Pass/Fail Criteria: (remote self test): The shock detector shall generate a fault signal or message and shall not generate intrusion or tamper signals or messages.

The general test conditions of 6.2 shall apply.

The purpose of this test section is to verify that shocks which are not based on a valid impact or series of impacts on the supervised structure do not generate any type of signal or message to the CIE.

Before and after each of the following tests a basic detection test (6.3) will be performed, to verify that each detector is still in a valid working and detection condition.

The mounting positions of the detectors or sensors shall comply with the manufacturer’s instructions.

Pass/Fail Criteria: There shall be no change of status of the detector(s) during each of the following tests. After each performed test a basic detection test shall generate an alarm signal or message.

This test will simulate hail hitting a window.

The detector shall not generate an intrusion signal or message when small objects such as hail, sand, gravel etc. hit the outside of the monitored surface, when set to the chosen sensitivity level required to pass the low shock integration attack detection performance test in 6.4.2.3 of the standard immunity window.

Whereas 6 detectors will be mounted on the frame of the opposite (‘inner’) side of the standard immunity window, 3 kg hail consisting out of Polyoxymethylen according the below specification will be dropped at the other (’out’) side of window running through a plastic tube with a length of 1,80 m, which is mounted at a distance of 50 mm and where at the end the hail will hit the centre of the monitored standard immunity window.

Polyoxymethylen (Delrin®) ball specification:

The test set up shall be according to the schematic drawing in Annex H.

The general Pass/Fail Criteria in 6.7 shall apply.

This test will simulate hard objects hitting the centre of a supervised window (e.g. handlebars of a bicycle).

The detector shall not generate an intrusion signal or message when hard objects hit the outside of the monitored surface, when set to the sensitivity level which had been chosen for the successfully passed gross attack detection performance test in 6.4.2.2 of the standard immunity window.

Whereas 6 detectors will be mounted on the frame of the opposite (‘inner’) side of the standard immunity window, a pendulum test with a steel ball with the following characteristics will be performed:

P

Hardened steel ball 40 mm ± 3 mm 0,26 kg ± 0,03 kg 27° ± Г 5 5s

endulum object (A)

Diameter

Weight

Angle a

Number of tests

Minimum Pause between each test

Each test will consist of one hit, without repeated bouncing.

The test set up shall be according to the drawing in Annex I.

The general Pass/Fail Criteria in 6.7 shall apply.

This test will simulate a permanent pressure against the centre of a supervised window (e.g. change of the power of installation of the glass over time / tense glass over time, objects which are leaned against the glass, etc).The detector shall not generate an intrusion signal or message if a permanent pressure against the monitored surface is issued, when set to the sensitivity level which had been chosen for the successfully passed gross attack detection performance test in 6.4.2.2 of the standard immunity window.

Whereas 6 detectors will be mounted on the frame of the opposite (“inner”) side of the standard immunity window, a static pressure test with a pneumatic cylinder with the following characteristics will be performed:

Description of pneumatic cylinder:

The test set up shall be according to the drawing in Annex J.

The general pass/fail criteria for 6.7 shall apply.

This test will simulate dynamic changing pressures against the centre of a supervised window (e.g. change of air pressure, wind etc.).

The detector shall not generate an intrusion signal or message if a dynamic changing pressure against the monitored surface is issued, when set to the sensitivity level which had been chosen for the successfully passed low shock integration attack detection performance test in 6.4.2.2 of the standard immunity window.

Whereas 6 detectors will be mounted on frame of the opposite (“inner”) side of the standard immunity window, a dynamic pressure test with a pneumatic cylinder with the following characteristics will be performed:

Description of pneumatic cylinder:

The test set up shall be according to the drawing in Annex K.

The general pass/fail criteria for 6.7 shall apply.

This test will verify that a detector at the same sensitivity level that it passed the gross attack performance test at, will allow a defined level of immunity at a lower force.

The spring-operated hammer shall be adjusted to the material dependent value given in Annex G. The hammer shall be placed on the material at a distance from the centre of the sensor element of the shock detector according to Annex G on the same side as the sensor element in spring loaded mode. The spring shall be released. The output of the detector shall be monitored if an alarm signal or message had been generated.

Between each test, a minimum pause of 5 min shall apply, if not advised differently by the manufacturer, to allow the detector to go into normal mode.

This test shall be carried out ten times in different positions according to the radius given in Table G.1 for each material, at least one test should be carried out on the glass, the fixed frame and on the movable frame when the test for the framed window is performed.

Pass/Fail criteria : For each standard material and each minimum distance according Annex G, at least nine out of ten tests for each material and/or distance shall not be detected to pass this test.

The general test conditions of 6.2.1 shall apply.

Mount the shock detector or its relevant components (sensors, etc.) according to the manufacturer’s recommendations. Using commonly available small tools such as those specified in Annex F and by attempting to distort the housing, attempt to gain access to any components, such as any means of adjustment and mounting screws, which, when interfered with, could adversely affect the operation of the shock detector or its relevant components (sensors, etc.).

Pass/Fail Criteria: Normal access shall require the use of an appropriate tool. For the grades specified in Table 3, it shall not be possible to gain access to any components, means of adjustment and mounting screws, which, when interfered with, could adversely affect the operation of the shock detector, without generating a tamper signal or message or causing visible damage.

Confirm the operation of the tamper detection element by removing the shock detector or its relevant components (sensors, etc.) from the mounting surface. Replace the unit on the mounting surface without the fixing screws, unless they form a part of the tamper detection element. Slowly prise the shock detector away from the mounting surface and attempt to prevent the tamper detection element from operating by inserting a strip of steel between 100 mm and 200 mm long by 10 mm to 20 mm wide, and 1 mm thick, between the rear of the shock detector and its mounting surface.

Pass/Fail Criteria: A tamper signal or message shall be generated before the tamper detection element can be inhibited.

Connect power to the shock detector and wait 180 s. Attempt to prevent intrusion, tamper and fault signals or messages by placing a single pole of a magnet grade dependent according to Table 3 on each surface of the housing where the analyser resides of the shock detector in sequence. For each placement carry out the basic detection test and verify correct generation of intrusion, tamper and fault signals or messages. Repeat the test with the other pole.

Pass/Fail Criteria: The presence of the magnet shall not prevent correct generation of any signal or message.

For each test, the shock detector shall be powered, each test needs to be performed and its signals or messages monitored for changes of status.

Carry out the following, grade dependent, masking tests:

1. Magnetic Masking

Shock detectors tested for compliance with grade 3 and 4, will be mounted according to the manufacturers instruction manual, wait 180 s for the system to stabilise and carry out a basic detection test. By placing a single pole of a magnet type grade depended according to Table 3 on each surface of the sensor housing of the shock detector in sequence. For each placement carry out the basic detection test and verify correct generation of intrusion, tamper and fault signals or messages. Repeat the test with the other pole.

After each individual masking application, wait 180 s for the system to stabilise and carry out a basic detection test.

Pass/Fail Criteria: A masking signal or message as described in Table 2 shall be generated within 180 s of the masking condition being applied, and shall continue to be generated for at least as long as the magnet is in place. Alternatively for grade 3, the shock detector shall continue to operate normally.

If an individual test is failed, it shall be repeated twice more. Two passes out of the three tests shall constitute a passed test.

2. Detection of penetration of sensor housing

This test will verify the ability of the shock sensor housing to detect the unauthorised access for preventing the fixing of the active sensor component e.g. via a screw or superglue.

Shock detectors tested for compliance with grade 4, will be mounted according to the manufacturers instruction manual, wait 180 s for the system to stabilise and carry out a basic detection test.

Drill a 1 mm hole using a metal drill on a randomly chosen position on each accessible surface, but at least a minimum of five holes, on randomly chosen positions on one shock detector or on a corresponding number of shock detectors or covers.

Pass/Fail Criteria: A masking signal or message as described in Table 2 shall be generated when a hole is drilled.

Ensure that the shock detector is installed according to the manufacturers installation instructions and the Basic detection test had been performed successfully.

Connect the detector to a variable, stabilised power supply and allow it to stabilise for at least 180 s.

Table 4 specifies Grade dependency.

This test is not applicable to shock detectors with Type C power supplies.

If the analyser is integrated in the CIE, these test shall be performed on the individual sensor components, if applicable.

Connect the shock detector to a suitable variable, stabilised power supply with a current measuring meter in series. Connect a voltmeter across the power input terminals of the shock detector. Set the voltage to the nominal supply voltage and allow the shock detector to stabilise for at least 180 s.

Place the shock detector in the mode which draws the maximum current as described by the manufacturer and measure the current drawn.

Place the shock detector in the mode which draws quiescent current as described by the manufacturer and measure the current drawn.

Pass/Fail Criteria: The current shall not exceed the manufacturer’s stated values by more than 20 % in either mode.

If the analyser is integrated in the CIE, these test shall be performed on the individual sensor components, if applicable.

Connect the shock detector to a suitable variable, stabilised power supply.

Raise the supply voltage from zero at a rate of 0,1 Vs’¹ in steps not greater than 10 mV until the nominal supply voltage V -25 % is reached, or the minimum supply voltage specified by the manufacturer, whichever is lower. Allow the shock detector to stabilise for 180 s.

Monitor the intrusion and fault signals or messages and carry out the basic detection test. This test is not applicable to shock detector with Type C power supplies.

Pass/Fail Criteria: The basic detection test shall cause an intrusion signal or message and shall not cause a fault signal or message.

Reset the input voltage to the nominal V +25 % or the maximum level specified by the manufacturer, whichever is greater. Allow the shock detector to stabilise for 180 s. Monitor the intrusion and fault signals or messages and carry out the basic detection test. This test is not applicable to shock detector with type C power supplies.

Pass/Fail Criteria: The basic detection test shall cause an intrusion signal or message and shall not cause a fault signal or message.

According to the grade dependence as defined in Table 1 for wired and wire-free shock detectors, lower the supply voltage at a rate of 0,1 Vs’¹ in steps of not more than 10 mV until a fault signal or message is generated. Carry out the basic detection test.

Pass/Fail Criteria: The shock detector shall generate a fault signal or message prior to the situation where no intrusion signal or message is generated when the basic detection test is carried out.

This test is not applicable to shock detectors with Type C power supplies.

If the analyser is integrated in the CIE, these test shall be performed on the individual sensor components, if applicable.

Set a signal generator to the nominal voltage V. Allow 180 s for the shock detector to stabilise. Modulate the shock detector supply voltage V by ± 10 % at a frequency of 100 Hz for a further 180 s.

During the application of the ripple carry out a basic detection test. Observe whether any intrusion or fault signals or messages are generated.

Pass/Fail Criteria: There shall be no unintentional signals or messages generated by the shock detector during the voltage ripple test. There shall be an intrusion signal or message generated by the basic detection test.