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Set up and Installation Guide | Users Manual | 55.16 KiB | September 11 2000 | |||
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1 2 | ID Label/Location Info | September 11 2000 | ||||||
1 2 | Cover Letter(s) | September 11 2000 | ||||||
1 2 | Test Setup Photos | native | September 11 2000 | |||||
1 2 | External Photos | native | September 11 2000 | |||||
1 2 | Cover Letter(s) | September 11 2000 | ||||||
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1 2 | Operational Description | September 11 2000 | ||||||
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1 2 | External Photos | native | September 11 2000 | |||||
1 2 | External Photos | native | September 11 2000 | |||||
1 2 | Test Setup Photos | native | September 11 2000 | |||||
1 2 | Test Setup Photos | native | September 11 2000 | |||||
1 2 | Test Setup Photos | native | September 11 2000 | |||||
1 2 | Internal Photos | native | September 11 2000 | |||||
1 2 | Internal Photos | native | September 11 2000 | |||||
1 2 | External Photos | native | September 11 2000 | |||||
1 2 | External Photos | native | September 11 2000 | |||||
1 2 | Internal Photos | native | September 11 2000 | |||||
1 2 | Internal Photos | native | September 11 2000 | |||||
1 2 | Internal Photos | native | September 11 2000 | |||||
1 2 | Internal Photos | native | September 11 2000 | |||||
1 2 | ID Label/Location Info | September 11 2000 | ||||||
1 2 | Test Report | |||||||
1 2 | Cover Letter(s) | August 11 2000 | ||||||
1 2 | Test Setup Photos | native | March 11 2000 | |||||
1 2 | Test Setup Photos | native | March 11 2000 | |||||
1 2 | Internal Photos | native | March 11 2000 | |||||
1 2 | ID Label/Location Info | |||||||
1 2 | Internal Photos | native | March 11 2000 | |||||
1 2 | Internal Photos | native | March 11 2000 | |||||
1 2 | Cover Letter(s) | August 01 2001 | ||||||
1 2 | Test Setup Photos | native | March 11 2000 | |||||
1 2 | Internal Photos | native | March 11 2000 | |||||
1 2 | Internal Photos | native | March 11 2000 | |||||
1 2 | Operational Description | March 11 2000 | ||||||
1 2 | External Photos | native | March 11 2000 | |||||
1 2 | External Photos | native | March 11 2000 | |||||
1 2 | Cover Letter(s) | March 11 2000 | ||||||
1 2 | ID Label/Location Info | March 11 2000 | ||||||
1 2 | Cover Letter(s) | March 11 2000 | ||||||
1 2 | Cover Letter(s) | August 01 2001 |
1 2 | Amended Manual | Users Manual | 387.21 KiB |
1 Digital Microwave System 915 Addendum The RF Transmitter/Receiver Board was redesigned because some components on the board were no longer available. This addendum contains the tuning procedure and service information for the new board. DMS Micromax 6'
DMS Micromax 18'
DMS Micromax 12'
EADC12WC DMS Concealed 12'
EADC18WC DMS Concealed 18'
EADC24WC DMS Concealed 24'
EADM06 EADM06WC DMS Micromax WC 6'
EADM12 EADM12WC DMS Micromax WC 12'
EADM18 EADM18WC DMS Micromax WC 18'
EADM24 EADP06 EADP18WC DMS Pedestal WC 18'
EADR03WC DMS Sensormat II 3'
EADR06WC DMS Sensormat II 6'
EADR10WC DMS Sensormat II 10'
EADS03 EADS06 DMS Micromax 24'
DMS Pedestal 6'
DMS Slimline 3'
DMS Slimline 6'
Note to Installers:
For FCC compliance, system components must be located where persons are not likely to linger within 20cm (8") of the RF antennas. A 20cm (8") setback is not required provided the antenna location does not promote lingering within 20cm
(8") of the antennas. For example, do not locate antennas adjacent to a chair or bench. Setup and Service Guide Contents About this Guide....................................................1 About the DMS 915 ...............................................2 Board Replacement...............................................2 Antenna Connection Change ................................2 Tuning Procedure..................................................3 Typical Installations ...............................................4 Specifications ........................................................8 Declarations ........................................................10 About this Guide This Setup and Service guide explains board replacement, an antenna connection change, tuning, and typical installations for the DMS 915 detector with the redesigned RF Transmitter/
Receiver Board. It is intended to be used as a supplement to the DMS 915 Installation and Field Service Manual, 8000-0395-01. Refer to the DMS 915 manual for a complete description of theory, installation, and trouble-shooting. Note: Because customer requirements dictate the placement of detector components, your Sensormatic representative will supply this information separately. If you need assistance... Call Sensormatic Customer Support at:
1-800-543-9740 Micromax, Sensormatic, and the Sensormatic logo are registered trademarks of Sensormatic Electronics Corporation. Other product names (if any) mentioned herein may be trademarks or registered trademarks of other companies. No part of this guide may be reproduced in any form without written permission from Sensormatic Electronics Corporation. Copyright 2001. All rights reserved.
(DOJ) 01/01 8000-0395-02, Rev. B (10 pages) MICROWAVE PRODUCTS 1 mounted in pedestal enclosures located at the store exit. The remote alarm provides a audio/visual signal that a tag has entered the zone of protection. The power pack powers and controls the system. The pack is typically concealed inside an enclosure. Board Replacement The new RF Transmitter/Receiver Board (0300-
2469-01) is not compatible with the old Processor Board (0300-0928-01). If the old RF Transmitter/Receiver Board (0300-0385-01) is replaced with a new RF Transmitter/Receiver board, the old Processor Board also must be replaced with Processor Board 0300-0928-02. Antenna Connection Change Connect the Impedance Matching Filter (SEC p/n 0400-1379-01) to the outer RF port (farthest from the IF module). Refer to Figure 1. Connect one of the RF antennas to the filter. Connect the other RF antenna directly to the remaining RF port. About the DMS 915 The Digital MicroWave System (DMS) 915 is a microcontroller-based anti-theft system. The DMS 915 produces an alarm when it detects a Sensormatic tag, a packaged semiconductor diode. To detect the tag, the system performs the following operations:
The system generates a zone of protection, typically at a store exit. This zone consists of two overlapping fields. The first field is a static or frequency-hopping, frequency modulated RF signal. The second field is a frequency shift key (FSK) modulated and predominately electrostatic field called an E-field. When a tag enters the zone, it combines the RF signal and the E-field into a composite signal that radiates to the system RF antennas. The system detects the composite signal, separates the modulation, and compares the recovered modulation to the modulation transmitted. If the two signals match, the system issues an alarm. The DMS 915 is programmed using an external hand-held computer. Programmable features include RF hopping bank or frequency selection, RF power level selection, electrostatic field frequency selection, tag-too-close function enable/disable, alarm tone selection, alarm duration selection, selectable hits required for alarm, and alarm count set/reset control. System Components DMS 915 components include E-field radiators, RF antennas, remote alarms, and a programmable power pack Three types of E-field radiators are:
Wire cloth usually recessed in the floor or sometimes laid on the floor under a rubber pad. Plate a metal plate concealed inside a pedestal at the side of the exit. Vortex a long aluminum bar hung across the exit. The RF antennas are used to radiate the frequency-hopping, frequency-modulated RF signal. These antennas mount in a variety of ways. They can be concealed above the ceiling, mounted in pods, concealed in the floor, or 2 SETUP AND SERVICE GUIDE DIGITAL MICROWAVE SYSTEM 915 8000-0395-02, REV. B Tuning Procedure The DMS 915 has been pre-tuned at the factory. If the detector is performing satisfactorily, no tuning is required. To tune the detector, do the following:
Figure 1. DMS Power Pack Connect matching filter and one RF antenna here Connect other RF antenna here 1. Using the laptop configurator or Psion programmer, program the Power Pack to the following settings:
E Generator Frequency System Type RF Power Select RF Bank Alarm Settings Number of Hits Tag Too Close RF Frequency RF Modulation
- 111.5kHz
- 915
- 10
- 903-905
- n/a
- 1
- On
- 904.2
- Off 2. Connect the oscilloscope probe to the Recovered Modulation Monitor test point located in the IF Module (Figure 1). Set the vertical sensitivity to 1Volt/division and the time base to 0.5 millisecond/division. 3. Move a tag around in the field and change its orientation until a signal of two volts peak to peak is observed on the scope. If necessary, the amplitude of the E-Field Generator can be adjusted to achieve this value. 4. Adjust the variable capacitor on the antenna side of the Impedance Matching Filter until the signal on the scope is at a maximum. Adjust the variable capacitor on the power pack side of the filter to further maximize the signal amplitude. Repeat this adjustment sequence of the capacitors until the signal reaches its maximum peak value. Note: If the amplitude of the signal exceeds four volts peak to peak at any time during this adjustment, turn the E-Field amplitude down to two volts peak to peak to prevent saturation of the amplifiers and consequently false readings. 5. Using the configurator, reset the System Type to 915HOP after tuning has been completed. I F I Tx/Rx Tx/Rx I F O RF Transmitter/
Receiver Recovered Modulation Monitor IF FM Detector Programmer Input Processor E-Generator DIGITAL MICROWAVE SYSTEM 915 8000-0395-02, Rev. B SETUP AND SERVICE GUIDE 3 Concealed Ceramic RF Antennas with wire cloth The Concealed ceramic RF antennas with wire cloth system consists of two helix type RF antennas, each resting on the ceiling tiles. The RF antennas are faced towards each other at a typical distance range from 3 to 24 feet depending upon the installation. On the floor between the RF antennas lays an electrostatic radiator, a wire cloth whose length is less than the separation between the RF antennas. The wire cloth is usually recessed in the floor or sometimes placed on the floor and covered with a rubber mat. The antennas are connected to the transmitter/receiver power pack via shielded coaxial cables. The transmitter/receiver power pack has an optional cosmetic enclosure. Components:
Power Pack RF antenna (helix) Electrostatic field wire cloth antenna Typical cosmetic mounting enclosure Figure 3. Concealed antennas with wire cloth RF antenna 3 24'
Power pack Wire cloth Typical Installations DMS 915 components are arranged in various configurations depending on the application. Typical installations are:
Slimline with plates Concealed ceramic RF antennas with wire cloth Pedestal with plates Pedestal with wire cloth Pedestal with vortex Micromax plastic RF antenna with vortex Micromax plastic RF antenna with wire cloth Sensormat II with wire cloth Slimline with Plates The Slimline with plate system consists of two dish type RF antennas, each mounted on metal frames which are enclosed in non-metallic pedestals. A transmitter/receiver power pack, RF antenna, and an electrostatic field radiator plate are contained in one unit while the other pedestal has only an RF antenna and another electrostatic radiator plate. The housings are faced toward each other at a typical distance range from 3 to 6 feet depending upon the installation. The antennas are connected to the transmitter/receiver via shielded coaxial cables. Components:
Power Pack RF antenna (dish) Electrostatic field Slimline plate antenna Metal Mounting Frame Typical Cosmetic Enclosure Old Typical Cosmetic Enclosure - New Figure 2. Slimline with plates Power pack RF antenna Plate antenna 3-6'
RF antenna Plate antenna 4 SETUP AND SERVICE GUIDE DIGITAL MICROWAVE SYSTEM 915 8000-0395-02, REV. B Pedestal with Plates The Pedestal with plate system consists of two plastic helix type RF antennas, each mounted and enclosed in pedestals. A transmitter/ receiver power pack, RF antenna, and an electrostatic field radiator plate are contained in one unit while the other pedestal has only an RF antenna and an electrostatic field radiator plate. The housings are faced toward each other at a typical distance range from 3 to 24 feet depending upon the installation. The antennas are connected to the transmitter/receiver via shielded coaxial cables. Components:
Power Pack RF antenna (helix) Electrostatic field plate antenna Cosmetic Mounting Enclosure Figure 4. Pedestal with plates Power pack RF antenna Plate antenna RF antenna Plate antenna 3 24'
Pedestal with Wire Cloth The Pedestal with wire cloth system consists of two plastic helix type RF antennas, each mounted and enclosed in pedestals. A transmitter/receiver power pack and RF antenna are contained in one unit while the other pedestal has only an RF antenna. The housings are faced toward each other at a typical distance range from 3 to 24 feet depending upon the installation. Between the housings lays the electrostatic radiator, a wire cloth antenna at a length less than the pedestal separation. The wire cloth is usually recessed in the floor or sometimes laid on the floor and covered with a rubber mat. The antennas are connected to the transmitter/receiver power pack via shielded coaxial cables. Components:
Power Pack RF antenna (helix) Electrostatic field wire cloth antenna Rubber Mat Cosmetic Mounting Enclosure Figure 5. Pedestal with wire cloth Power pack RF antenna Wire cloth RF antenna 3 24'
DIGITAL MICROWAVE SYSTEM 915 8000-0395-02, Rev. B SETUP AND SERVICE GUIDE 5 Pedestal with Vortex The Pedestal with vortex system consists of two plastic helix type RF antennas, each mounted and enclosed in pedestals. A transmitter/ receiver power pack and RF antenna are contained in one unit while the other pedestal has only an RF antenna. The housings are faced toward each other at a typical distance range from 3 to 24 feet depending upon the installation. In between the housings is an electrostatic radiator, a vortex bar antenna which is suspended from the ceiling at an elevation between 8 and 10 feet. Its length is less than the pedestal separation. The antennas are connected to the transmitter/receiver power pack via shielded coaxial cables. Components:
Power Pack RF antenna (helix) Electrostatic field vortex bar antenna Non-metallic Mounting Enclosure Figure 6. Pedestal with vortex Micromax Plastic RF Antenna with Vortex The Micromax with vortex system consists of two plastic helix type RF antennas, each mounted and enclosed in plastic housing pods suspended from the ceiling or mounted to the floor. The housings are faced toward each other at a typical distance range from 3 to 24 feet depending upon the installation. In between the housings is an electrostatic radiator, a vortex bar antenna suspended from the ceiling at an elevation between 8 and 10 feet. Its length is less than the Pod separation. The antennas are connected to the transmitter/receiver power pack via shielded coaxial cables. The transmitter/receiver power pack has an optional cosmetic enclosure. Components:
Power Pack RF antenna (helix) RF antenna pod Electrostatic field vortex bar antenna Typical cosmetic mounting enclosure Figure 7. Micromax with vortex Vortex bar Power pack RF antenna 8 10'
3 24'
RF antenna Power pack RF antenna Vortex bar 8 10'
3 24'
6 SETUP AND SERVICE GUIDE DIGITAL MICROWAVE SYSTEM 915 8000-0395-02, REV. B Micromax Plastic RF Antenna with Wire Cloth The Micromax with wire cloth system consists of two plastic helix type RF antennas, each mounted and enclosed in plastic housing pods suspended from the ceiling or mounted to the floor. The housings are faced toward each other at a typical distance range from 3 to 24 feet depending upon the installation. In between the housings lays an electrostatic radiator, a wire cloth antenna whose length is less than the separation between the pods. The wire cloth is usually recessed in the floor or sometimes laid on the surface and covered with a rubber mat. The antennas are connected to the transmitter/receiver power pack via shielded coaxial cables. The transmitter/receiver power pack has an optional cosmetic enclosure. Components:
Power Pack RF antenna (helix) RF antenna pod Electrostatic field wire cloth antenna Typical cosmetic mounting enclosure Figure 8. Micromax with wire cloth Sensormat II with wire cloth The Sensormat II with wire cloth system consists of two patch RF antennas and an electrostatic field wire cloth antenna. The patch antennas are placed on one side of the wire cloth at a typical distance of 4 feet. The Sensormat II physically covers a typical exit path from 3 to 10 feet wide, depending upon the installation. The wire cloth and the patch antennas are recessed in the floor. The antennas are connected to the transmitter/ receiver power pack via shielded coaxial cables. The transmitter/
receiver power pack has an optional cosmetic enclosure. Components:
Power Pack RF patch antenna Electrostatic field wire cloth antenna Typical cosmetic mounting enclosure Figure 9. Sensormat II with wire cloth Power pack Wire cloth RF antenna 3 10'
Power pack RF antenna Wire cloth 3 24'
Antenna 3" max from glass display window Formica laminated particle board is currently used to assemble the non-metallic and cosmetic mounting enclosures referred to above. Enclosures could be constructed of similar materials, i.e. plastic, fiberglass, etc. without affecting the generated fields. The materials used and the enclosure dimensions may vary for custom installations. DIGITAL MICROWAVE SYSTEM 915 8000-0395-02, Rev. B SETUP AND SERVICE GUIDE 7 Specifications Electrical AC Step-down Transformer Primary Input:.....................100, 120, or 230Vac, 50/60Hz Fused Secondary Output: ..24Vac, 50VA, 2.08A Fuse: ..................................2.5A LKB STD fast-
blow DC Power Supply Resettable Polyswitch:.......3.0A at 20 C (derates to 2.1A at 50 C) Positive Regular Outputs: ..+15.8, +12, +8, +5Vdc Negative Regular Outputs:.-16, -12Vdc Rated Current (w/o alarm) .<1.5A at 20 C with RF frequency at 915MHz;
E-field at 500Vp-p, 111.5kHz, 11,000pF load Rated Current (with alarm).<2.0A at 20 C with RF frequency at 915MHz;
RF power at level 10, E-field at 500Vp-p, 111.5kHz, 11,000pF load; alarm volume at maximum RF Antenna Dual Helix, Dual patch, Micro II dish RF Cable RG142, RG142 B/U 50 ohm E-Field Generator Modulated Input Frequency:
442 450kHz in 2kHz increments Modulated Output Frequency:
111.5 112.5kHz in 500Hz increments Modulation:.........................FSK, 650 950Hz Output Voltage: ..................1000Vp-p maximum at minimum capacitance;
500V maximum at maximum capacitance Resonance Range: ............Continuous capacitance, 50pF 11,000pF IF FM Detector Center Frequency:............. 111.5kHz IF Bandwidth (module): ..... 4.38kHz maximum Modulation Frequency Generator:
650 950Hz Transmitter RF Synthesizer Frequency Range:
900 920.1MHz (U.S. range:
902 928MHz) RF Stability (RFS): ............ RFS < 25ppm F(TX) = 900MHz, 22.500kHz F(TX) = 905MHz, 22.625kHz F(TX) = 920.1MHz, 23.003kHz RF Bandpass Filter 3dB Bandwidth:
915MHz 890 US RF Frequency:............. Voluntary restricted to RF Output Power Maximum:
Power Difference:.............. 0.5dB maximum 902.7 904.9MHz
+21dBm/port between 902.7MHz 904.9MHz Frequency Hopping Mode: (Complies with FCC Part 15.247) Selectable RF Banks:2 Frequency Modulation:...... Mod. Freq. = 1.2kHz Adjacent RF Channel Spacing: 30kHz RF Channels per RF Bank: >50 RF Hopping Channel:........ 30kHz minimum RF Channel Selection: ...... Determines by pseudorandom code sequence Output Filter 3dB DW: ....... 888 915MHz RF Receiver RF Bandpass Filter 3dB Bandwidth:
MHz 890 915 IF Bandwidth: .................... BW < or = 3.5kHz Input Filter 3dB BW: .......... 888 - 915MHz Sensitivity: ......................... = .1257microVrms Environmental Operating Temperature: .... -10 to 50C (14 122F) 8 SETUP AND SERVICE GUIDE DIGITAL MICROWAVE SYSTEM 915 8000-0395-02, REV. B Metal Mounting Frame Length................................ 116.8cm (46") Width ................................. 26cm (10.25") Depth ................................. 4.4cm (1.75") Cosmetic Enclosure (Old) Length................................ 118.1cm (46.5") Width ................................. 46.4cm (18.25") Depth ................................. 7.3cm (2 7/8") Cosmetic Enclosure (New) Length................................ 118.1cm (46.5") Width ................................. 30.5cm (12") Depth ................................. 7.3cm (2 7/8") Cosmetic Enclosure (Typical) Length................................ 106cm (41.75") Width ................................. 32.4-43.2cm (12.75-
17") Depth ................................. 31.1cm (12.25") Non-metallic Enclosure Length................................ 106cm (41.75") Width ................................. 32.4-43.2cm (12.75-
17") Depth ................................. 31.1cm (12.25") Rubber Mat Length................................ varies Width ................................. 35.6cm (14") Depth ................................. 0.6cm (0.25") RF Antenna Pod Length................................ 39.4cm (15.5") Width ................................. 18.4cm (7.25") Depth ................................. 18.4cm (7.25") Relative Humidity: ..............0 to 90% non-
condensing Mechanical Power Pack Length ................................61cm (24") Width ..................................23.5cm (9.25") Depth..................................4.4cm (1.75") Weight ................................4.6kg (10.2 lbs) RF Antenna (Dish) Length ................................3.6cm (1.4") Diameter.............................19.8cm (7.8") RF Antenna (Helix) Length ................................32cm (12 5/8") Width ..................................15.2cm (6") Depth..................................15.2cm (6") RF Antenna (Patch) Length ................................28.3cm (11 1/8") Width ..................................14.9cm (5 7/8") Depth..................................0.6cm (0.25") Slimline Antenna Length ................................20.3cm (8") Width ..................................15.2cm (6") Depth..................................0.2cm (1/16") Plate Antenna Length ................................50.5cm (19.9") Width ..................................22.4cm (8.8") Depth..................................0.6cm (0.25") Wire Cloth Antenna Length ................................varies Width ..................................8.9cm (3.5") Depth..................................0.3cm (1/8") Vortex Bar Length ................................varies Width ..................................5cm (2") Depth..................................1.3cm (0.5") DIGITAL MICROWAVE SYSTEM 915 8000-0395-02, Rev. B SETUP AND SERVICE GUIDE 9 Declarations Regulatory Compliance EMC: ................................ 47 CFR, Part 15 Safety: .............................. UL1950 (UL) Can/CSA C22.2 No. 950 EN60950 (CE) FCC COMPLIANCE: This equipment complies with Part 15 of the FCC rules for intentional radiators and Class A digital devices when installed and used in accordance with the instruction manual. Following these rules provides reasonable protection against harmful interference from equipment operated in a commercial area. This equipment should not be installed in a residential area as it can radiate radio frequency energy that could interfere with radio communications, a situation the user would have to fix at their own expense. EQUIPMENT MODIFICATION CAUTION: Equipment changes or modifications not expressly approved by Sensormatic Electronics Corporation, the party responsible for FCC compliance, could void the user's authority to operate the equipment and could create a hazardous condition. Other Declarations WARRANTY DISCLAIMER: Sensormatic Electronics Corporation makes no representation or warranty with respect to the contents hereof and specifically disclaims any implied warranties of merchantability or fitness for any particular purpose. Further, Sensormatic Electronics Corporation reserves the right to revise this publication and make changes from time to time in the content hereof without obligation of Sensormatic Electronics Corporation to notify any person of such revision or changes. LIMITED RIGHTS NOTICE: For units of the Department of Defense, all documentation and manuals were developed at private expense and no part of it was developed using Government Funds. The restrictions governing the use and disclosure of technical data marked with this legend are set forth in the definition of "limited rights" in paragraph (a) (15) of the clause of DFARS 252.227.7013. Unpublished - rights reserved under the Copyright Laws of the United States. 10 SETUP AND SERVICE GUIDE DIGITAL MICROWAVE SYSTEM 915 8000-0395-02, REV. B
1 2 | Set up and Installation Guide | Users Manual | 55.16 KiB | September 11 2000 |
WORLD LEADER IN ELECTRONIC SECURI TY Setup and Service Guide DMS Micromax 6'
DMS Micromax 12'
1 Digital Microwave System 915 Addendum EADC12WC DMS Concealed 12'
EADC18WC DMS Concealed 18'
EADC24WC DMS Concealed 24'
EADM06 EADM06WCDMS Micromax WC 6'
EADM12 EADM12WCDMS Micromax WC 12'
EADM18 EADM18WCDMS Micromax WC 18'
EADM24 EADP06 EADP18WC DMS Pedestal WC 18'
EADR03WC DMS Sensormat II 3'
EADR06WC DMS Sensormat II 6'
EADR10WC DMS Sensormat II 10'
EADS03 EADS06 DMS Micromax 24'
DMS Pedestal 6'
DMS Slimline 3'
DMS Slimline 6'
DMS Micromax 18'
About this Guide This Setup and Service guide explains typical installations and tuning for the DMS 915 detector. It is intended to be used as a supplement to the DMS 915 Installation and Field Service Manual. Refer to the DMS 915 manual for a complete description of theory, installation, and troubleshooting. Other related documents are:
DMS 915 Installation and Field Service Manual, 8000-0395-01 Note: Because customer requirements dictate the placement of detector components, your Sensormatic representative will supply this information separately. If you need assistance... Call Sensormatic Customer Support at:
1-800-543-9740 Micromax, Sensormatic, and the Sensormatic logo are registered trademarks of Sensormatic Electronics Corporation. Other product names (if any) mentioned herein may be trademarks or registered trademarks of other companies. No part of this guide may be reproduced in any form without written permission from Sensormatic Electronics Corporation. Copyright 2000. All rights reserved.
(DOJ) 11/00 Contents About this Guide................................................ 1 About the DMS 915 ........................................... 2 Specifications.................................................... 9 Declarations...................................................... 9 Preliminary 11/03/00 8000-0395-02, Rev. A (9 pages) MICROWAVE PRODUCTS 1 mounted in pedestal enclosures located at the store exit. The remote alarm provides a audio/visual signal that a tag has entered the zone of protection. The power pack powers and controls the system. The pack is typically concealed inside an enclosure. About the DMS 915 The Digital MicroWave System (DMS) 915 is a microcontroller-based anti-theft system. The DMS 915 produces an alarm when it detects a Sensormatic tag, a packaged semiconductor diode. To detect the tag, the system performs the following operations:
The system generates a zone of protection, typically at a store exit. This zone consists of two overlapping fields. The first field is a static or frequency-hopping, frequency modulated RF signal. The second field is a frequency shift key (FSK) modulated and predominately electrostatic field called an E-field. When a tag enters the zone, it combines the RF signal and the E-field into a composite signal that radiates to the system RF antennas. The system detects the composite signal, separates the modulation, and compares the recovered modulation to the modulation transmitted. If the two signals match, the system issues an alarm. The DMS 915 is programmed using an external hand-held computer. Programmable features include RF hopping bank or frequency selection, RF power level selection, electrostatic field frequency selection, tag-too-close function enable/disable, alarm tone selection, alarm duration selection, selectable hits required for alarm, and alarm count set/reset control. System Components DMS 915 components include E-field radiators, RF antennas, remote alarms, and a programmable power pack Three types of E-field radiators are:
Wire cloth usually recessed in the floor or sometimes laid on the floor under a rubber pad. Plate a metal plate concealed inside a pedestal at the side of the exit. Vortex a long aluminum bar hung across the exit. The RF antennas are used to radiate the frequency-hopping, frequency-modulated RF signal. These antennas mount in a variety of ways. They can be concealed above the ceiling, mounted in pods, concealed in the floor, or 2 SETUP AND SERVICE GUIDE DIGITAL MICROWAVE SYSTEM 915 8000-0395-02, REV. A Concealed Ceramic RF Antennas with wire cloth The Concealed ceramic RF antennas with wire cloth system consists of two helix type RF antennas, each resting on the ceiling tiles. The RF antennas are faced towards each other at a typical distance range from 3 to 24 feet depending upon the installation. On the floor between the RF antennas lays an electrostatic radiator, a wire cloth whose length is less than the separation between the RF antennas. The wire cloth is usually recessed in the floor or sometimes placed on the floor and covered with a rubber mat. The antennas are connected to the transmitter/receiver power pack via shielded coaxial cables. The transmitter/receiver power pack has an optional cosmetic enclosure. Components:
Power Pack RF antenna (helix) Electrostatic field wire cloth antenna Typical cosmetic mounting enclosure Figure 2. Concealed antennas with wire cloth RF antenna 3 24'
Power pack Wire cloth Typical Installations DMS 915 components are arranged in various configurations depending on the application. Typical installations are:
Slimline with plates Concealed ceramic RF antennas with wire cloth Pedestal with plates Pedestal with wire cloth Pedestal with vortex Micromax plastic RF antenna with vortex Micromax plastic RF antenna with wire cloth Sensormat II with wire cloth Slimline with Plates The Slimline with plate system consists of two dish type RF antennas, each mounted on metal frames which are enclosed in non-metallic pedestals. A transmitter/receiver power pack, RF antenna, and an electrostatic field radiator plate are contained in one unit while the other pedestal has only an RF antenna and another electrostatic radiator plate. The housings are faced toward each other at a typical distance range from 3 to 6 feet depending upon the installation. The antennas are connected to the transmitter/receiver via shielded coaxial cables. Components:
Power Pack RF antenna (dish) Electrostatic field Slimline plate antenna Metal Mounting Frame Typical Cosmetic Enclosure Old Typical Cosmetic Enclosure - New Figure 1. Slimline with plates Power pack RF antenna Plate antenna 3-6'
RF antenna Plate antenna DIGITAL MICROWAVE SYSTEM 915 8000-0395-02, Rev. A SETUP AND SERVICE GUIDE 3 Pedestal with Plates The Pedestal with plate system consists of two plastic helix type RF antennas, each mounted and enclosed in pedestals. A transmitter/ receiver power pack, RF antenna, and an electrostatic field radiator plate are contained in one unit while the other pedestal has only an RF antenna and an electrostatic field radiator plate. The housings are faced toward each other at a typical distance range from 3 to 24 feet depending upon the installation. The antennas are connected to the transmitter/receiver via shielded coaxial cables. Components:
Power Pack RF antenna (helix) Electrostatic field plate antenna Cosmetic Mounting Enclosure Figure 3. Pedestal with plates Power pack RF antenna Plate antenna RF antenna Plate antenna 3 24'
Pedestal with Wire Cloth The Pedestal with wire cloth system consists of two plastic helix type RF antennas, each mounted and enclosed in pedestals. A transmitter/receiver power pack and RF antenna are contained in one unit while the other pedestal has only an RF antenna. The housings are faced toward each other at a typical distance range from 3 to 24 feet depending upon the installation. Between the housings lays the electrostatic radiator, a wire cloth antenna at a length less than the pedestal separation. The wire cloth is usually recessed in the floor or sometimes laid on the floor and covered with a rubber mat. The antennas are connected to the transmitter/receiver power pack via shielded coaxial cables. Components:
Power Pack RF antenna (helix) Electrostatic field wire cloth antenna Rubber Mat Cosmetic Mounting Enclosure Figure 4. Pedestal with wire cloth Power pack RF antenna Wire cloth RF antenna 3 24'
4 SETUP AND SERVICE GUIDE DIGITAL MICROWAVE SYSTEM 915 8000-0395-02, REV. A Pedestal with Vortex The Pedestal with vortex system consists of two plastic helix type RF antennas, each mounted and enclosed in pedestals. A transmitter/ receiver power pack and RF antenna are contained in one unit while the other pedestal has only an RF antenna. The housings are faced toward each other at a typical distance range from 3 to 24 feet depending upon the installation. In between the housings is an electrostatic radiator, a vortex bar antenna which is suspended from the ceiling at an elevation between 8 and 10 feet. Its length is less than the pedestal separation. The antennas are connected to the transmitter/receiver power pack via shielded coaxial cables. Components:
Power Pack RF antenna (helix) Electrostatic field vortex bar antenna Non-metallic Mounting Enclosure Figure 5. Pedestal with vortex Micromax Plastic RF Antenna with Vortex The Micromax with vortex system consists of two plastic helix type RF antennas, each mounted and enclosed in plastic housing pods suspended from the ceiling or mounted to the floor. The housings are faced toward each other at a typical distance range from 3 to 24 feet depending upon the installation. In between the housings is an electrostatic radiator, a vortex bar antenna suspended from the ceiling at an elevation between 8 and 10 feet. Its length is less than the Pod separation. The antennas are connected to the transmitter/receiver power pack via shielded coaxial cables. The transmitter/receiver power pack has an optional cosmetic enclosure. Components:
Power Pack RF antenna (helix) RF antenna pod Electrostatic field vortex bar antenna Typical cosmetic mounting enclosure Figure 6. Micromax with vortex Vortex bar Power pack RF antenna 8 10'
3 24'
RF antenna Power pack RF antenna Vortex bar 8 10'
3 24'
DIGITAL MICROWAVE SYSTEM 915 8000-0395-02, Rev. A SETUP AND SERVICE GUIDE 5 Micromax Plastic RF Antenna with Wire Cloth The Micromax with wire cloth system consists of two plastic helix type RF antennas, each mounted and enclosed in plastic housing pods suspended from the ceiling or mounted to the floor. The housings are faced toward each other at a typical distance range from 3 to 24 feet depending upon the installation. In between the housings lays an electrostatic radiator, a wire cloth antenna whose length is less than the separation between the pods. The wire cloth is usually recessed in the floor or sometimes laid on the surface and covered with a rubber mat. The antennas are connected to the transmitter/receiver power pack via shielded coaxial cables. The transmitter/receiver power pack has an optional cosmetic enclosure. Components:
Power Pack RF antenna (helix) RF antenna pod Electrostatic field wire cloth antenna Typical cosmetic mounting enclosure Figure 7. Micromax with wire cloth Sensormat II with wire cloth The Sensormat II with wire cloth system consists of two patch RF antennas and an electrostatic field wire cloth antenna. The patch antennas are placed on one side of the wire cloth at a typical distance of 4 feet. The Sensormat II physically covers a typical exit path from 3 to 10 feet wide, depending upon the installation. The wire cloth and the patch antennas are recessed in the floor. The antennas are connected to the transmitter/ receiver power pack via shielded coaxial cables. The transmitter/
receiver power pack has an optional cosmetic enclosure. Components:
Power Pack RF patch antenna Electrostatic field wire cloth antenna Typical cosmetic mounting enclosure Figure 8. Sensormat II with wire cloth Power pack Wire cloth RF antenna 3 10'
Power pack RF antenna Wire cloth 3 24'
Antenna 3" max from glass display window Formica laminated particle board is currently used to assemble the non-metallic and cosmetic mounting enclosures referred to above. Enclosures could be constructed of similar materials, i.e. plastic, fiberglass, etc. without affecting the generated fields. The materials used and the enclosure dimensions may vary for custom installations. 6 SETUP AND SERVICE GUIDE DIGITAL MICROWAVE SYSTEM 915 8000-0395-02, REV. A Specifications Electrical AC Step-down Transformer Primary Input: ...................100, 120, or 230Vac, 50/60Hz Fused Secondary Output: ..24Vac, 50VA, 2.08A Fuse: ................................2.5A LKB STD fast-
blow DC Power Supply Resettable Polyswitch:.......3.0A at 20C (derates to 2.1A at 50C) Positive Regular Outputs: ..+15.8, +12, +8, +5Vdc Negative Regular Outputs:.-16, -12Vdc Rated Current (w/o alarm) .<1.5A at 20C with RF frequency at 915MHz;
E-field at 500Vp-p, 111.5kHz, 11,000pF load Rated Current (with alarm) .<2.0A at 20C with RF frequency at 915MHz;
RF power at level 10, E-field at 500Vp-p, 111.5kHz, 11,000pF load; alarm volume at maximum RF Antenna Dual Helix, Dual patch, Micro II dish RF Cable RG142, RG142 B/U 50 ohm E-Field Generator Modulated Input Frequency:
442 450kHz in 2kHz increments Modulated Output Frequency:
111.5 112.5kHz in 500Hz increments Modulation: .......................FSK, 650 950Hz Output Voltage: .................1000Vp-p maximum at minimum capacitance;
500V maximum at maximum capacitance Resonance Range:............Continuous capacitance, 50pF 11,000pF IF FM Detector Center Frequency: ............111.5kHz IF Bandwidth (module): .....4.38kHz maximum Modulation Frequency Generator:
650 950Hz Transmitter RF Synthesizer Frequency Range:
888 920.1MHz (U.S. range:
902 928MHz) RF Stability (RFS): ............RFS <25ppm F(TX) = 888MHz, 22.200kHz F(TX) = 905MHz, 22.625kHz F(TX) = 920.1MHz, 23.003kHz RF Bandpass Filter 3dB Bandwidth:
915MHz 890 US RF Frequency: ............Voluntary restricted to RF Output Power Maximum:
Power Difference: .............0.5dB maximum 902.7 904.9MHz
+21dBm/port between 902.7MHz 904.9MHz Frequency Hopping Mode:.(Complies with FCC Part 15.247) Selectable RF Banks:2 Frequency Modulation: ......Mod. Freq. = 1.2kHz Adjacent RF Channel Spacing: 30kHz RF Channels per RF Bank: >50 RF Hopping Channel: ........30kHz minimum RF Channel Selection:.......Determines by pseudorandom code sequence Output Filter 3dB DW: .......888 915MHz RF Receiver RF Bandpass Filter 3dB Bandwidth:
890 915 MHz IF Bandwidth:....................BW < or = 3.5kHz Input Filter 3dB BW: ..........888 - 915MHz Sensitivity: ........................= .1257microVrms Environmental Operating Temperature: ....-10 to 50C (14 122F) DIGITAL MICROWAVE SYSTEM 915 8000-0395-02, Rev. A SETUP AND SERVICE GUIDE 7 Relative Humidity: .............0 to 90% non-
condensing Mechanical Power Pack Length..............................24") Width................................9.25") Depth ...............................1.75"
Weight..............................4.6kg (10.2 lbs) RF Antenna (Dish) Length..............................1.4"
Diameter...........................7.8"
Weight..............................xkg (x lbs) RF Antenna (Helix) Length..............................12 5/8"
Width................................6"
Depth ...............................6"
Weight..............................xkg (x lbs) RF Antenna (Patch) Length..............................11 1/8"
Width................................5 7/8"
Depth ...............................0.25"
Weight..............................xkg (x lbs) Slimline Antenna Length..............................8"
Width................................6"
Depth ...............................1/16"
Weight..............................xkg (x lbs) Plate Antenna Length..............................19.9"
Width................................8.8"
Depth ...............................0.25"
Weight..............................xkg (x lbs) Wire Cloth Antenna Length..............................varies Width................................3.5"
Depth ...............................1/8"
Weight..............................xkg (x lbs) Vortex Bar Length..............................varies Width................................2"
Depth ...............................0.5"
Weight..............................xkg (x lbs) Metal Mounting Frame Length..............................46"
Width................................10.25"
Depth ...............................1.75"
Weight..............................xkg (x lbs) Cosmetic Enclosure (Old) Length..............................46.5"
Width................................18.25"
Depth ...............................2 7/8"
Weight..............................xkg (x lbs) Cosmetic Enclosure (New) Length..............................46.5"
Width................................12"
Depth ...............................2 7/8"
Weight..............................xkg (x lbs) Cosmetic Enclosure (Typical) Length..............................41.75"
Width................................12.75-17"
Depth ...............................12.25"
Weight..............................xkg (x lbs) Non-metallic Enclosure Length..............................41.75"
Width................................12.75-17"
Depth ...............................12.25"
Weight..............................xkg (x lbs) Rubber Mat Length..............................varies Width................................14"
Depth ...............................0.25"
Weight..............................xkg (x lbs) RF Antenna Pod Length..............................15.5"
Width................................7.25"
8 SETUP AND SERVICE GUIDE DIGITAL MICROWAVE SYSTEM 915 8000-0395-02, REV. A Depth ...............................7.24"
Weight..............................xkg (x lbs) Declarations Regulatory Compliance EMC:.............................. 47 CFR, Part 15 Safety: ........................... UL1950 (UL) Can/CSA C22.2 No. 950 EN60950 (CE) FCC COMPLIANCE: This equipment complies with Part 15 of the FCC rules for intentional radiators and Class A digital devices when installed and used in accordance with the instruction manual. Following these rules provides reasonable protection against harmful interference from equipment operated in a commercial area. This equipment should not be installed in a residential area as it can radiate radio frequency energy that could interfere with radio communications, a situation the user would have to fix at their own expense. EQUIPMENT MODIFICATION CAUTION: Equipment changes or modifications not expressly approved by Sensormatic Electronics Corporation, the party responsible for FCC compliance, could void the user's authority to operate the equipment and could create a hazardous condition. Other Declarations WARRANTY DISCLAIMER: Sensormatic Electronics Corporation makes no representation or warranty with respect to the contents hereof and specifically disclaims any implied warranties of merchantability or fitness for any particular purpose. Further, Sensormatic Electronics Corporation reserves the right to revise this publication and make changes from time to time in the content hereof without obligation of Sensormatic Electronics Corporation to notify any person of such revision or changes. LIMITED RIGHTS NOTICE: For units of the Department of Defense, all documentation and manuals were developed at private expense and no part of it was developed using Government Funds. The restrictions governing the use and disclosure of technical data marked with this legend are set forth in the definition of "limited rights" in paragraph (a) (15) of the clause of DFARS 252.227.7013. Unpublished - rights reserved under the Copyright Laws of the United States. DIGITAL MICROWAVE SYSTEM 915 8000-0395-02, Rev. A SETUP AND SERVICE GUIDE 9
1 2 | installation and setup documentation | Users Manual | 55.16 KiB | March 11 2000 |
WORLD LEADER IN ELECTRONIC SECURI TY Setup and Service Guide DMS Micromax 6'
DMS Micromax 12'
1 Digital Microwave System 915 Addendum EADC12WC DMS Concealed 12'
EADC18WC DMS Concealed 18'
EADC24WC DMS Concealed 24'
EADM06 EADM06WCDMS Micromax WC 6'
EADM12 EADM12WCDMS Micromax WC 12'
EADM18 EADM18WCDMS Micromax WC 18'
EADM24 EADP06 EADP18WC DMS Pedestal WC 18'
EADR03WC DMS Sensormat II 3'
EADR06WC DMS Sensormat II 6'
EADR10WC DMS Sensormat II 10'
EADS03 EADS06 DMS Micromax 24'
DMS Pedestal 6'
DMS Slimline 3'
DMS Slimline 6'
DMS Micromax 18'
About this Guide This Setup and Service guide explains typical installations and tuning for the DMS 915 detector. It is intended to be used as a supplement to the DMS 915 Installation and Field Service Manual. Refer to the DMS 915 manual for a complete description of theory, installation, and troubleshooting. Other related documents are:
DMS 915 Installation and Field Service Manual, 8000-0395-01 Note: Because customer requirements dictate the placement of detector components, your Sensormatic representative will supply this information separately. If you need assistance... Call Sensormatic Customer Support at:
1-800-543-9740 Micromax, Sensormatic, and the Sensormatic logo are registered trademarks of Sensormatic Electronics Corporation. Other product names (if any) mentioned herein may be trademarks or registered trademarks of other companies. No part of this guide may be reproduced in any form without written permission from Sensormatic Electronics Corporation. Copyright 2000. All rights reserved.
(DOJ) 11/00 Contents About this Guide................................................ 1 About the DMS 915 ........................................... 2 Specifications.................................................... 9 Declarations...................................................... 9 Preliminary 11/03/00 8000-0395-02, Rev. A (9 pages) MICROWAVE PRODUCTS 1 mounted in pedestal enclosures located at the store exit. The remote alarm provides a audio/visual signal that a tag has entered the zone of protection. The power pack powers and controls the system. The pack is typically concealed inside an enclosure. About the DMS 915 The Digital MicroWave System (DMS) 915 is a microcontroller-based anti-theft system. The DMS 915 produces an alarm when it detects a Sensormatic tag, a packaged semiconductor diode. To detect the tag, the system performs the following operations:
The system generates a zone of protection, typically at a store exit. This zone consists of two overlapping fields. The first field is a static or frequency-hopping, frequency modulated RF signal. The second field is a frequency shift key (FSK) modulated and predominately electrostatic field called an E-field. When a tag enters the zone, it combines the RF signal and the E-field into a composite signal that radiates to the system RF antennas. The system detects the composite signal, separates the modulation, and compares the recovered modulation to the modulation transmitted. If the two signals match, the system issues an alarm. The DMS 915 is programmed using an external hand-held computer. Programmable features include RF hopping bank or frequency selection, RF power level selection, electrostatic field frequency selection, tag-too-close function enable/disable, alarm tone selection, alarm duration selection, selectable hits required for alarm, and alarm count set/reset control. System Components DMS 915 components include E-field radiators, RF antennas, remote alarms, and a programmable power pack Three types of E-field radiators are:
Wire cloth usually recessed in the floor or sometimes laid on the floor under a rubber pad. Plate a metal plate concealed inside a pedestal at the side of the exit. Vortex a long aluminum bar hung across the exit. The RF antennas are used to radiate the frequency-hopping, frequency-modulated RF signal. These antennas mount in a variety of ways. They can be concealed above the ceiling, mounted in pods, concealed in the floor, or 2 SETUP AND SERVICE GUIDE DIGITAL MICROWAVE SYSTEM 915 8000-0395-02, REV. A Concealed Ceramic RF Antennas with wire cloth The Concealed ceramic RF antennas with wire cloth system consists of two helix type RF antennas, each resting on the ceiling tiles. The RF antennas are faced towards each other at a typical distance range from 3 to 24 feet depending upon the installation. On the floor between the RF antennas lays an electrostatic radiator, a wire cloth whose length is less than the separation between the RF antennas. The wire cloth is usually recessed in the floor or sometimes placed on the floor and covered with a rubber mat. The antennas are connected to the transmitter/receiver power pack via shielded coaxial cables. The transmitter/receiver power pack has an optional cosmetic enclosure. Components:
Power Pack RF antenna (helix) Electrostatic field wire cloth antenna Typical cosmetic mounting enclosure Figure 2. Concealed antennas with wire cloth RF antenna 3 24'
Power pack Wire cloth Typical Installations DMS 915 components are arranged in various configurations depending on the application. Typical installations are:
Slimline with plates Concealed ceramic RF antennas with wire cloth Pedestal with plates Pedestal with wire cloth Pedestal with vortex Micromax plastic RF antenna with vortex Micromax plastic RF antenna with wire cloth Sensormat II with wire cloth Slimline with Plates The Slimline with plate system consists of two dish type RF antennas, each mounted on metal frames which are enclosed in non-metallic pedestals. A transmitter/receiver power pack, RF antenna, and an electrostatic field radiator plate are contained in one unit while the other pedestal has only an RF antenna and another electrostatic radiator plate. The housings are faced toward each other at a typical distance range from 3 to 6 feet depending upon the installation. The antennas are connected to the transmitter/receiver via shielded coaxial cables. Components:
Power Pack RF antenna (dish) Electrostatic field Slimline plate antenna Metal Mounting Frame Typical Cosmetic Enclosure Old Typical Cosmetic Enclosure - New Figure 1. Slimline with plates Power pack RF antenna Plate antenna 3-6'
RF antenna Plate antenna DIGITAL MICROWAVE SYSTEM 915 8000-0395-02, Rev. A SETUP AND SERVICE GUIDE 3 Pedestal with Plates The Pedestal with plate system consists of two plastic helix type RF antennas, each mounted and enclosed in pedestals. A transmitter/ receiver power pack, RF antenna, and an electrostatic field radiator plate are contained in one unit while the other pedestal has only an RF antenna and an electrostatic field radiator plate. The housings are faced toward each other at a typical distance range from 3 to 24 feet depending upon the installation. The antennas are connected to the transmitter/receiver via shielded coaxial cables. Components:
Power Pack RF antenna (helix) Electrostatic field plate antenna Cosmetic Mounting Enclosure Figure 3. Pedestal with plates Power pack RF antenna Plate antenna RF antenna Plate antenna 3 24'
Pedestal with Wire Cloth The Pedestal with wire cloth system consists of two plastic helix type RF antennas, each mounted and enclosed in pedestals. A transmitter/receiver power pack and RF antenna are contained in one unit while the other pedestal has only an RF antenna. The housings are faced toward each other at a typical distance range from 3 to 24 feet depending upon the installation. Between the housings lays the electrostatic radiator, a wire cloth antenna at a length less than the pedestal separation. The wire cloth is usually recessed in the floor or sometimes laid on the floor and covered with a rubber mat. The antennas are connected to the transmitter/receiver power pack via shielded coaxial cables. Components:
Power Pack RF antenna (helix) Electrostatic field wire cloth antenna Rubber Mat Cosmetic Mounting Enclosure Figure 4. Pedestal with wire cloth Power pack RF antenna Wire cloth RF antenna 3 24'
4 SETUP AND SERVICE GUIDE DIGITAL MICROWAVE SYSTEM 915 8000-0395-02, REV. A Pedestal with Vortex The Pedestal with vortex system consists of two plastic helix type RF antennas, each mounted and enclosed in pedestals. A transmitter/ receiver power pack and RF antenna are contained in one unit while the other pedestal has only an RF antenna. The housings are faced toward each other at a typical distance range from 3 to 24 feet depending upon the installation. In between the housings is an electrostatic radiator, a vortex bar antenna which is suspended from the ceiling at an elevation between 8 and 10 feet. Its length is less than the pedestal separation. The antennas are connected to the transmitter/receiver power pack via shielded coaxial cables. Components:
Power Pack RF antenna (helix) Electrostatic field vortex bar antenna Non-metallic Mounting Enclosure Figure 5. Pedestal with vortex Micromax Plastic RF Antenna with Vortex The Micromax with vortex system consists of two plastic helix type RF antennas, each mounted and enclosed in plastic housing pods suspended from the ceiling or mounted to the floor. The housings are faced toward each other at a typical distance range from 3 to 24 feet depending upon the installation. In between the housings is an electrostatic radiator, a vortex bar antenna suspended from the ceiling at an elevation between 8 and 10 feet. Its length is less than the Pod separation. The antennas are connected to the transmitter/receiver power pack via shielded coaxial cables. The transmitter/receiver power pack has an optional cosmetic enclosure. Components:
Power Pack RF antenna (helix) RF antenna pod Electrostatic field vortex bar antenna Typical cosmetic mounting enclosure Figure 6. Micromax with vortex Vortex bar Power pack RF antenna 8 10'
3 24'
RF antenna Power pack RF antenna Vortex bar 8 10'
3 24'
DIGITAL MICROWAVE SYSTEM 915 8000-0395-02, Rev. A SETUP AND SERVICE GUIDE 5 Micromax Plastic RF Antenna with Wire Cloth The Micromax with wire cloth system consists of two plastic helix type RF antennas, each mounted and enclosed in plastic housing pods suspended from the ceiling or mounted to the floor. The housings are faced toward each other at a typical distance range from 3 to 24 feet depending upon the installation. In between the housings lays an electrostatic radiator, a wire cloth antenna whose length is less than the separation between the pods. The wire cloth is usually recessed in the floor or sometimes laid on the surface and covered with a rubber mat. The antennas are connected to the transmitter/receiver power pack via shielded coaxial cables. The transmitter/receiver power pack has an optional cosmetic enclosure. Components:
Power Pack RF antenna (helix) RF antenna pod Electrostatic field wire cloth antenna Typical cosmetic mounting enclosure Figure 7. Micromax with wire cloth Sensormat II with wire cloth The Sensormat II with wire cloth system consists of two patch RF antennas and an electrostatic field wire cloth antenna. The patch antennas are placed on one side of the wire cloth at a typical distance of 4 feet. The Sensormat II physically covers a typical exit path from 3 to 10 feet wide, depending upon the installation. The wire cloth and the patch antennas are recessed in the floor. The antennas are connected to the transmitter/ receiver power pack via shielded coaxial cables. The transmitter/
receiver power pack has an optional cosmetic enclosure. Components:
Power Pack RF patch antenna Electrostatic field wire cloth antenna Typical cosmetic mounting enclosure Figure 8. Sensormat II with wire cloth Power pack Wire cloth RF antenna 3 10'
Power pack RF antenna Wire cloth 3 24'
Antenna 3" max from glass display window Formica laminated particle board is currently used to assemble the non-metallic and cosmetic mounting enclosures referred to above. Enclosures could be constructed of similar materials, i.e. plastic, fiberglass, etc. without affecting the generated fields. The materials used and the enclosure dimensions may vary for custom installations. 6 SETUP AND SERVICE GUIDE DIGITAL MICROWAVE SYSTEM 915 8000-0395-02, REV. A Specifications Electrical AC Step-down Transformer Primary Input: ...................100, 120, or 230Vac, 50/60Hz Fused Secondary Output: ..24Vac, 50VA, 2.08A Fuse: ................................2.5A LKB STD fast-
blow DC Power Supply Resettable Polyswitch:.......3.0A at 20C (derates to 2.1A at 50C) Positive Regular Outputs: ..+15.8, +12, +8, +5Vdc Negative Regular Outputs:.-16, -12Vdc Rated Current (w/o alarm) .<1.5A at 20C with RF frequency at 915MHz;
E-field at 500Vp-p, 111.5kHz, 11,000pF load Rated Current (with alarm) .<2.0A at 20C with RF frequency at 915MHz;
RF power at level 10, E-field at 500Vp-p, 111.5kHz, 11,000pF load; alarm volume at maximum RF Antenna Dual Helix, Dual patch, Micro II dish RF Cable RG142, RG142 B/U 50 ohm E-Field Generator Modulated Input Frequency:
442 450kHz in 2kHz increments Modulated Output Frequency:
111.5 112.5kHz in 500Hz increments Modulation: .......................FSK, 650 950Hz Output Voltage: .................1000Vp-p maximum at minimum capacitance;
500V maximum at maximum capacitance Resonance Range:............Continuous capacitance, 50pF 11,000pF IF FM Detector Center Frequency: ............111.5kHz IF Bandwidth (module): .....4.38kHz maximum Modulation Frequency Generator:
650 950Hz Transmitter RF Synthesizer Frequency Range:
888 920.1MHz (U.S. range:
902 928MHz) RF Stability (RFS): ............RFS <25ppm F(TX) = 888MHz, 22.200kHz F(TX) = 905MHz, 22.625kHz F(TX) = 920.1MHz, 23.003kHz RF Bandpass Filter 3dB Bandwidth:
915MHz 890 US RF Frequency: ............Voluntary restricted to RF Output Power Maximum:
Power Difference: .............0.5dB maximum 902.7 904.9MHz
+21dBm/port between 902.7MHz 904.9MHz Frequency Hopping Mode:.(Complies with FCC Part 15.247) Selectable RF Banks:2 Frequency Modulation: ......Mod. Freq. = 1.2kHz Adjacent RF Channel Spacing: 30kHz RF Channels per RF Bank: >50 RF Hopping Channel: ........30kHz minimum RF Channel Selection:.......Determines by pseudorandom code sequence Output Filter 3dB DW: .......888 915MHz RF Receiver RF Bandpass Filter 3dB Bandwidth:
890 915 MHz IF Bandwidth:....................BW < or = 3.5kHz Input Filter 3dB BW: ..........888 - 915MHz Sensitivity: ........................= .1257microVrms Environmental Operating Temperature: ....-10 to 50C (14 122F) DIGITAL MICROWAVE SYSTEM 915 8000-0395-02, Rev. A SETUP AND SERVICE GUIDE 7 Relative Humidity: .............0 to 90% non-
condensing Mechanical Power Pack Length..............................24") Width................................9.25") Depth ...............................1.75"
Weight..............................4.6kg (10.2 lbs) RF Antenna (Dish) Length..............................1.4"
Diameter...........................7.8"
Weight..............................xkg (x lbs) RF Antenna (Helix) Length..............................12 5/8"
Width................................6"
Depth ...............................6"
Weight..............................xkg (x lbs) RF Antenna (Patch) Length..............................11 1/8"
Width................................5 7/8"
Depth ...............................0.25"
Weight..............................xkg (x lbs) Slimline Antenna Length..............................8"
Width................................6"
Depth ...............................1/16"
Weight..............................xkg (x lbs) Plate Antenna Length..............................19.9"
Width................................8.8"
Depth ...............................0.25"
Weight..............................xkg (x lbs) Wire Cloth Antenna Length..............................varies Width................................3.5"
Depth ...............................1/8"
Weight..............................xkg (x lbs) Vortex Bar Length..............................varies Width................................2"
Depth ...............................0.5"
Weight..............................xkg (x lbs) Metal Mounting Frame Length..............................46"
Width................................10.25"
Depth ...............................1.75"
Weight..............................xkg (x lbs) Cosmetic Enclosure (Old) Length..............................46.5"
Width................................18.25"
Depth ...............................2 7/8"
Weight..............................xkg (x lbs) Cosmetic Enclosure (New) Length..............................46.5"
Width................................12"
Depth ...............................2 7/8"
Weight..............................xkg (x lbs) Cosmetic Enclosure (Typical) Length..............................41.75"
Width................................12.75-17"
Depth ...............................12.25"
Weight..............................xkg (x lbs) Non-metallic Enclosure Length..............................41.75"
Width................................12.75-17"
Depth ...............................12.25"
Weight..............................xkg (x lbs) Rubber Mat Length..............................varies Width................................14"
Depth ...............................0.25"
Weight..............................xkg (x lbs) RF Antenna Pod Length..............................15.5"
Width................................7.25"
8 SETUP AND SERVICE GUIDE DIGITAL MICROWAVE SYSTEM 915 8000-0395-02, REV. A Depth ...............................7.24"
Weight..............................xkg (x lbs) Declarations Regulatory Compliance EMC:.............................. 47 CFR, Part 15 Safety: ........................... UL1950 (UL) Can/CSA C22.2 No. 950 EN60950 (CE) FCC COMPLIANCE: This equipment complies with Part 15 of the FCC rules for intentional radiators and Class A digital devices when installed and used in accordance with the instruction manual. Following these rules provides reasonable protection against harmful interference from equipment operated in a commercial area. This equipment should not be installed in a residential area as it can radiate radio frequency energy that could interfere with radio communications, a situation the user would have to fix at their own expense. EQUIPMENT MODIFICATION CAUTION: Equipment changes or modifications not expressly approved by Sensormatic Electronics Corporation, the party responsible for FCC compliance, could void the user's authority to operate the equipment and could create a hazardous condition. Other Declarations WARRANTY DISCLAIMER: Sensormatic Electronics Corporation makes no representation or warranty with respect to the contents hereof and specifically disclaims any implied warranties of merchantability or fitness for any particular purpose. Further, Sensormatic Electronics Corporation reserves the right to revise this publication and make changes from time to time in the content hereof without obligation of Sensormatic Electronics Corporation to notify any person of such revision or changes. LIMITED RIGHTS NOTICE: For units of the Department of Defense, all documentation and manuals were developed at private expense and no part of it was developed using Government Funds. The restrictions governing the use and disclosure of technical data marked with this legend are set forth in the definition of "limited rights" in paragraph (a) (15) of the clause of DFARS 252.227.7013. Unpublished - rights reserved under the Copyright Laws of the United States. DIGITAL MICROWAVE SYSTEM 915 8000-0395-02, Rev. A SETUP AND SERVICE GUIDE 9
frequency | equipment class | purpose | ||
---|---|---|---|---|
1 | 2001-01-24 | 0.1115 ~ 0.1125 | DCD - Part 15 Low Power Transmitter Below 1705 kHz | Original Equipment |
2 | 902 ~ 905 | DSS - Part 15 Spread Spectrum Transmitter |
app s | Applicant Information | |||||
---|---|---|---|---|---|---|
1 2 | Effective |
2001-01-24
|
||||
1 2 | Applicant's complete, legal business name |
Tyco Safety Products/Sensormatic
|
||||
1 2 | FCC Registration Number (FRN) |
0005052626
|
||||
1 2 | Physical Address |
6600 Congress Ave
|
||||
1 2 |
Boca Raton, Florida 33487
|
|||||
1 2 |
United States
|
|||||
app s | TCB Information | |||||
n/a | ||||||
app s | FCC ID | |||||
1 2 | Grantee Code |
BVC
|
||||
1 2 | Equipment Product Code |
DMS915
|
||||
app s | Person at the applicant's address to receive grant or for contact | |||||
1 2 | Name |
W****** D****** O****
|
||||
1 2 | Title |
Principal Compliance Engineer
|
||||
1 2 | Telephone Number |
561-9********
|
||||
1 2 | Fax Number |
561-9********
|
||||
1 2 |
b******@tycoint.com
|
|||||
app s | Technical Contact | |||||
1 2 | Firm Name |
Sensormatic Electronics Corporation
|
||||
1 2 | Name |
D**** J**** U********
|
||||
1 2 | Physical Address |
951 Yamato Road
|
||||
1 2 |
Boca Raton, Florida 33431
|
|||||
1 2 |
United States
|
|||||
1 2 | Telephone Number |
561 9********
|
||||
1 2 | Fax Number |
561 9********
|
||||
1 2 |
u******@sensormatic.com
|
|||||
app s | Non Technical Contact | |||||
n/a | ||||||
app s | Confidentiality (long or short term) | |||||
1 2 | Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | Yes | ||||
1 2 | Long-Term Confidentiality Does this application include a request for confidentiality for any portion(s) of the data contained in this application pursuant to 47 CFR § 0.459 of the Commission Rules?: | No | ||||
if no date is supplied, the release date will be set to 45 calendar days past the date of grant. | ||||||
app s | Cognitive Radio & Software Defined Radio, Class, etc | |||||
1 2 | Is this application for software defined/cognitive radio authorization? | No | ||||
1 2 | Equipment Class | DCD - Part 15 Low Power Transmitter Below 1705 kHz | ||||
1 2 | DSS - Part 15 Spread Spectrum Transmitter | |||||
1 2 | Description of product as it is marketed: (NOTE: This text will appear below the equipment class on the grant) | Digital Microwave System -- DMS 915 | ||||
1 2 | Digital Microwave System anti-theft equipment | |||||
1 2 | Related OET KnowledgeDataBase Inquiry: Is there a KDB inquiry associated with this application? | No | ||||
1 2 | Modular Equipment Type | Does not apply | ||||
1 2 | Purpose / Application is for | Original Equipment | ||||
1 2 | Composite Equipment: Is the equipment in this application a composite device subject to an additional equipment authorization? | Yes | ||||
1 2 | Related Equipment: Is the equipment in this application part of a system that operates with, or is marketed with, another device that requires an equipment authorization? | No | ||||
1 2 | Grant Comments | Grant Conditions: This anti-theft system operates with three antennas, two in the 915 MHZ band and one in the 100 kHz band. The output is specified at each antenna output port. The antennas must be installed to provide the separation distances described in the installation procedures submitted for this filing. The maximum radiated output of an antenna installed on or along the floor must not exceed 80 mW EIRP. Installers must be provided with appropriate antenna installation instructions to satisfy RF exposure requirements. | ||||
1 2 | Is there an equipment authorization waiver associated with this application? | No | ||||
1 2 | If there is an equipment authorization waiver associated with this application, has the associated waiver been approved and all information uploaded? | No | ||||
app s | Test Firm Name and Contact Information | |||||
1 2 | Firm Name |
Sensormatic Electronics Corporation
|
||||
1 2 |
Timco Engineering, Inc.
|
|||||
1 2 | Name |
W******** E********
|
||||
1 2 |
S**** S****
|
|||||
1 2 | Telephone Number |
561-9********
|
||||
1 2 |
888-4********
|
|||||
1 2 | Fax Number |
561-9********
|
||||
1 2 |
352-4********
|
|||||
1 2 |
w******@tycoint.com
|
|||||
1 2 |
i******@timcoengr.com
|
|||||
Equipment Specifications | |||||||||||||||||||||||||||||||||||||||||
---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
1 | 1 | 15C | 0.11150000 | 0.11250000 | |||||||||||||||||||||||||||||||||||||
Line | Rule Parts | Grant Notes | Lower Frequency | Upper Frequency | Power Output | Tolerance | Emission Designator | Microprocessor Number | |||||||||||||||||||||||||||||||||
2 | 1 | 15C | 902.00000000 | 905.00000000 | 0.1250000 |
some individual PII (Personally Identifiable Information) available on the public forms may be redacted, original source may include additional details
This product uses the FCC Data API but is not endorsed or certified by the FCC