Westinghouse SE 6000 Instrukcja Instalacji Strona 11
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HID Corporation 9292 Jeronimo Road Irvine, CA 92618 USA TEL (949) 598-1600 (800) 237-7769 FAX (949) 598-1690
Web page, E-mail - www.prox.com - MultiProx Controller Installation Manual 6000-900 Rev F 11 of 27
the signal and outputs the data over the Wiegand interface to an access control panel. The HID proximity card
data is sent in the exact format that was programmed on the card. For example, a card encoded with the
standard 26 bit format will be read and outputs as the standard 26 bit format. This would be the same for another
ProxCard II programmed card, no matter what the format type is or number of bits 32, 34, 27, etc. The SE
command key data is decoded, converted to the card number that is printed on the card and output to the access
control panel as Wiegand data.
The Wiegand output format chosen to represent the SE 1030, 1040 and 1050 card numbers is a 32 bit format.
The 32 bits allows for parity, fields for facility code, card number and a card type identifier. The 1030 cards have
an 11 bit facility code, 0-2047, and 15 bit card number, 0-32767. The 1040 cards have an 11 bit facility code and
18 bit card number, 0-262143. The 1050 cards have a 25 bit card number, 0-33554431. For access control
systems that only accommodate one type of Wiegand bit format, an identical format may be programmed into
ProxCard II cards. The card type identifier is used to distinguish the difference between HID 32 bit programmed
cards and the SE cards. The card type identifier maybe used as another bit in the card field, adding a card
number differentiation between the HID cards and SE command keys.
MultiProx Reader Operation
The MultiProx Reader accepts commands from the controller to change the read mode and to signal changes
to the LED and beeper. While in the HID “Prox mode”, the reader detects HID proximity cards by generating a
125kHz low power field that energizes the card and allows it to transmit its manchester-encoded data. While in the
“sweep mode”, the Reader detects Schlage/Westinghouse (SE) command keys by outputting an RF field in the
frequency range of 2 to 27 megahertz. This signal is swept from high to low frequencies. The SE command keys
are a set of tuned L/C (tank) circuits that resonate at their tuned frequency. As the L/C circuits resonate, they
generate an interference in the swept frequency range. This interference pulse is detected by the reader and
transmitted to the Controller via the coax cable. The Controller determines the frequencies of a command key and
matches the set of frequencies to a card number.
Schlage/Westinghouse (SE) “Command key” Operation
The 1050 cards are a series of five L/C circuits. Each set of circuits (frequencies) in the card represent a card
number. Facility codes are not used with the 1050 cards. The range of card numbers is 1 to 24040016. The 1030
and 1040 command keys are a set of four L/C circuits. The set of frequencies are matched to a card number,
which is dependent on the facility code. Each facility code for the 1030 or 1040 select the specific frequencies that
match a certain card number. So, the facility code must be set up on the Controller to determine which
frequencies are valid and how to interpret the set of frequencies detected from a key . If a 1030 or 1040 command
card is presented to a Reader that is not in the facility code set up, the Controller will not interpret the card
correctly and will not output a card message. The facility code range of 1030 or 1040 cards is 0 to 2047. The card
range for 1030 cards is 0 to 32767 and for 1040 is 0 to 262143.
MultiProx HSM operation
The HSM monitors four inputs for voltage changes in the monitored circuits. The Controller communicates with
the HSM using a polling scheme and digital communication. When the HSM receives a poll message, the HSM
communicates the status of the inputs with a response message. If there is a status change, the Controller
changes the respective relay output. The relays on the Controller are energized in the normal state. If the
Controller loses power, the relays will de-energize and change to the “alarm” state. The relay outputs are grouped
by channel and have specific connector assignments.
- MultiProx Controller - 6000A 1
- MultiProx System Overview 4
- Description/Operation 4
- Parts List 4
- 2. Install MultiProx Readers 5
- Troubleshooting Guide 7
- 3. No Card Read 8
- 4. Improper HSM response 8
- Theory of Operation 10
- MultiProx Reader Operation 11
- MultiProx HSM operation 11
- I00 0 CCCCCCCCCCCCCCC P 13
- ICCCCCCCCCCCCCCCCCC P 13
- ICCCCCCCCCCCCCCCCCCCCCCCCC P 14
- Installation Aid Diagrams 16
- Relay connectors 18
- Connectors 18
- Figure 5 19
- Figure 6 20
- HSM model no. 6020ANC00 27
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