92 SPEKTEK ALAT LABORATORIUM PENGEMBANGAN INDUSTRI TEKNOLOGI KEPOLISIAN KSA T.A. 2011. 52 Hot gas bypass systems will be used for protection against No-Load condition and superior stability and control in temperature. 53 Oil return system will be used for protection against oil migration from the compressor. 54 Heating System Stainless steel sheathed air heaters will be used to achieve the desired positive set temperature. 55 The heaters will be placed in the conditioning plenum such that there is no direct radiation from the heaters onto the test specimen. 56 Heater outputs are controlled through a SSR for superior stability and control in temperature. 57 Instrumentation Control 58 enviCoM Data Sheet Enclosed Provisions Each Zone will be provided with one standard access port of 50 mm diameter with a silicone plug. 59 Standard industrial 3 phase plug and socket with 5m cable. 3m Ethernet cable will be supplied. PC with Windows 98 and above with Ethernet RJ45 Port to be provided by purchaser 60 User Manual One set of operating cum maintenance manual in English. 61 Complete drawings of mechanical layout, refrigeration and electrical system with clear identification will be provided. 62 Safety Protection Devices Fault Diagnostics system with history. 63 Complete or circuit relevant protection based on fault with audio-visual alarm. 64 Independent temperature protection for test specimen T max T min 65 Software temperature limiter for min.max. Test chamber temperature. 66 Protection for excess pressure in refrigeration circuit. 67 Automatic oil return for safety of compressor. 68 Bypass protection at No-Load conditions. 69 Under Voltage, Over Voltage, Single Phase protection and phase reversal at input. 70 Protection for overloaded motor of test space fan and compressors Thermal Overload Relay. 71 The control and monitoring system will be protected against input electrical surge and spike. 72 Common Earth point will be provided. 73 Power Supply 415V AC, +10, 3Phase, 50Hz, 4 Wire + Earth. 74 Max Connected Load 10 KW

4. LABORATORIUM ELECTROMAGNETIC a.

System Electromagnetic Compatibility Testing 1 EMC Test Cells 2 Position Ortho-Axis Pneumatic Manipulator 3 Blower assembly , Illumination kit 4 Shielded Window for primary door , Blank feed-thru panel with frame 5 Feed-thru panel with 3 “N” connectors and 1 fiber optic penetration with frame 6 Feed Connector Type : cw 716 DIN to N Adapter 7 Field Uniformity : f 1 GHz, 0 -6dB 8 Frequency : 9 kHz - 5 GHz RE DC - 20 GHz RI 9 Input Impedance : 50 Ω 10 Maximum CW Input : 250 W 11 Shielding Effectiveness : 10 kHz - 1 GHz 12 VSWR Maximum : All Other Freq 1.50:1 93 SPEKTEK ALAT LABORATORIUM PENGEMBANGAN INDUSTRI TEKNOLOGI KEPOLISIAN KSA T.A. 2011. 1. : Characteristic Freq 1.75:1 13 VSWR Typical : All Other Freq 1.30:1 1. : Characteristic Freq3 1.75:1 14 Approx Cell Weight : 250.0 kg 88.18 lb 15 Distributed Load Rating : 250 kg 551.15 lb 16 Door Dimension Primary H : 385.0 mm 15.16 inches 17 Door Dimension Primary W : 460.0 mm 18.11 inches 18 Highest Accuracy Transverse Test Surface in Center of Cell H : 167.0 mm 6.57 inches 19 Highest Accuracy Transverse Test Surface in Center of Cell W : 250.0 mm 9.84 inches 20 Maximum Recommended Transverse Test Surface in Center of Cell H : 333.0 mm 13.11 inches 21 Maximum Recommended Transverse Test Surface in Center of Cell W : 375.0 mm 14.76 inches 22 Maximum Septum Height : : 500.0 mm 19.69 inches 23 Outer Cell wBase DimensionH : 1.7 m 5.58 ft 24 Outer Cell wBase DimensionL : 3.0 m 9.84 ft 25 Outer Cell wBase DimensionW : 1.6 m 5.25 ft 26 Model 7001-002 Plug-in Card a Exterior Dimension HxWxD One Slot b Supply Voltage Volts Through EMCenter c Power Consumption 30 W d Temperature Range 0° C to +40° C e Relative Humidity 10 to 90 Non-condensing f RF Connectors SMA Type g Remote Control External Relays Fiber Optic Link 27 MODEL 7001-002 Plug-in Card a Number of Relays 4x SPDT b Frequency Band18 GHz c RF Switching Capacity DC to 3 GHz: 240 W d to 8 GHz: 150 W e 8 to 12.4 GHz: 120 W f 12.4 to 18 GHz: 100W g InterlockFirst Switch on Each Card can be Used as a True Interlock Switch 28 MODEL FEATURE PLUG-IN CARD 7003-001 a Frequency Band9 kHz to 230 MHz LF Output 80 MHz to 6 GHz HF Output b Frequency Resolution 1 Hz c Frequency Error +- 20 ppm d Minimum Output Level -70 dBm e Maximum Output Level +10 dBm +4.0 dBm When Using AM f Amplitude Resolution 0.1 dBm g Amplitude Accuracy +- 1.5 dB h Output Level Settling Time 500 us i Harmonics - 20 dBc j Non Harmonic Spurious - 50 dBc k Modulation Types CW, AM and Pulse l Modulation Frequency Range 10 Hz to 100 kHz m AM Modulation Depth 5 to 95 Usable 0 to 100 94 SPEKTEK ALAT LABORATORIUM PENGEMBANGAN INDUSTRI TEKNOLOGI KEPOLISIAN KSA T.A. 2011. n AM Accuracy, Output LF +- 3 5 to 95 Modulation Depth o Measured at 0 dBm Level p AM Accuracy, Output HF +- 2 10 to 90 Modulation Depth q Measured at 0 dBm Level +- 3 5 to 10 and 90 to 95 Modulation Depth r Pulse OnOff Time Range 200 ns to 100 s s Pulse Modulation OnOff Ratio 60 dB 9 kHz to 230 MHz t Output LF u Pulse Modulation OnOff Ratio 90 dB 80 MHz to 1 GHz v Output HF 70 dB 1 GHz to 3 GHz 60 dB 3 GHz to 6 GHz w Supply Voltage 12 VDC 29 MODEL FEATURE 7007-001 Plug-in Card a Exterior Dimension 1 Slot b Temperature Range 0° C – +35° c Relative Humidity 10 – 90 Non-condensing 30 MODEL FEATURE HI-6005 a Detection Isotropic Isotropic X, Y and Z Axis Readings b Calibrated Frequency Range 100 kHz to 6 GHz c Frequency Response Typical 500 kHz to 2 GHz +1.0, -2.5 dB d 2 to 5 GHz +3.5, -4.0 dB e 5 to 6 GHz +1.0, -6.0 dB f Frequency Response with Correction ± 0.9 dB g Dynamic Range 0.5 – 800 Vm Single Range h Resolution 0.01 Vm i Isotropic Deviation ± 0.5 dB 400 MHz j Linearity ± 0.5 dB 27 MHz k Sample Rate 60 SamplesSecond Maximum l Overload Withstand 1500 Vm CW 31 EMI Receiver a Frequency range, 20 Hz to 8.4 GHz, BW 25 Mhz, NF Connector b Frequency range: Input 1 DC coupled 20 Hz to 8.4 GHz AC coupled 10 MHz to 8.4 GHz Input 2 DC coupled 20 Hz to 1 GHz AC coupled 10 MHz to 1 GHz c EMI measurement application Support Compliance conducted and radiated emission measurements d Preamplifier 100 kHz - 8.4 Ghz e Precision Frequency Reference : Aging rate ± x 10-7year f Built-in Mechanical attenuator S : 2 dB steps, 0 to 70 dB g Analysis bandwidth, 25 MHz h Complies with European EMC Directive 2004108EC 1 IECEN 61326-2-1 2 CISPR Pub 11 Group 1, class B 3 ASNZS CISPR 11 4 ICESNMB-00 95 SPEKTEK ALAT LABORATORIUM PENGEMBANGAN INDUSTRI TEKNOLOGI KEPOLISIAN KSA T.A. 2011. 5 Complies with European Low Voltage Directive 200695EC 6 IECEN 61010-1 2nd Edition 7 Canada: CSA C22.2 No. 61010-01-04 8 USA: UL 61010-1 2nd Edition i -167 dBm displayed average noise level DANL with preamplifier and noise floor extension j Noise sidebands Offset 100 Hz –88 dBcHz 1 kHz –101 dBcHz nominal 10 kHz –106 dBcHz 100 kHz –117 dBcHz 1 MHz –137 dBcHz 10 MHz –148 dBcHz nominal k USB 2.0 ports l Standard Compatible with USB 2.0 m Connector USB Type-A female n LAN TCPIP interface o Standard 1000Base-T p Connector RJ45 Ethertwis 32 Common X-Series user interface Open Windows® XP operating system 33 Must have Supporting letter from principal and supporting letter from local support Distributor in indonesia 96 SPEKTEK ALAT LABORATORIUM PENGEMBANGAN INDUSTRI TEKNOLOGI KEPOLISIAN KSA T.A. 2011.

D. LABORATORIUM UJI ALAT TRANSPORTASI

1. General Test This test is to measure the following aspects for any vehicle 2 or more wheels to ensure that the vehicle has fulfilled its functionality and quality. a. Headlight Test measures intensity of vehicle’s beam whether it is qualified or not. The headlight position is adjusted automatically according to the image processing method of ramp pattern by using CCD camera. It measures the intensity of light and the optical axis. The equipment is also measuring the high-beam and low-beam. The equipment is placed in a closed room. The room must be able to accommodate one heavy duty vehicle and one two- wheel vehicle approximately 3.000 mm in width and 9.000 mm in length. This tester must be able to measure beam intensity up to 120.000 cd, measure low beam and high beam differently and measure beam height from 350 to 1.300 mm from the ground. This test must be completed with SOP Standard Operation Procedure. b. Luminance Test is done to measure the luminance of the siren lamp by using lux meter. The siren lamp must be detached from the car then it will be tested in closed and dark room so there won’t be any interference of other lights. Both tester and testing object will be placed in specified position with same height and axis. This test must be completed with SOP Standard Operation Procedure. c. Decibel Meter is done to measure the decibel of siren. The siren must be detached from the car and it will be tested in closed room. The room must be equipped with noise-absorbing material so leaking sound comes from outside will be blocked and the sound from siren will not get out. Siren will be placed in siren stand. The position of tester should be in a line axis, same height as the siren axis and mounted at a distance of 3.0 m from the edge of siren. Both of siren and tester should be placed as far from the walls to prevent echo. The pressure level of siren should reach 115 decibel dB. This test must be completed with SOP Standard Operation Procedure. d. Exhaust Gas Analyzer is done to measure the emission of exhaust gas. The Exhaust Gas Analyzer is including with sample probe attached to outlet gas of vehicle and analyzer calculating the emissions. Computer to save the data and printer to print out the result are only the complement. The Exhaust Gas Analyzer must be calibrated before this test to obtain better result and must be able to measure Carbon Monoxide CO, Carbon Dioxide CO 2 , Nitrogen Oxide NO, Nitrogen Dioxide NO 2 , and Hydrocarbons HC. The exhaust pipe will be attached with sample probe. The vehicle will be tested only in idle RPM. This testing must always be done in a well-ventilated area. This test must be completed with SOP Standard Operation Procedure.

2. Two-Wheels Vehicle Test

Splash Test is to perform the vehicle response under watery road condition. This test is needed to see the outcome of the splash and its effects to driver. The testing is done in a closed room and consisted of water tank, water pump, roller, and vehicle mounting as equipment. This test must be completed with SOP Standard Operation Procedure.