Installation Manual - 5375-900 Rev 06 MaxiProx Reader 5375A __________________________________________________________________________________________________________ HID Corporation, 9292 Jeronimo Road, Irvine, CA 92618-1905, USA •Tel: (949) 598-1600, (800) 237-7769, Fax: (949) 598-1690 http://www.hidcorp.
CONTENTS CHAPTER 1 1.1 1.2 1.3 OPERATION ......................................................................................................................................................................1 PARTS LIST ......................................................................................................................................................................1 REGULATORY APPROVALS AND CERTIFICATIONS ...................................................................................
FIGURES FIGURE 1: FIGURE 2: FIGURE 3: FIGURE 4: MAXIPROX FRONT VIEW ...............................................................................................................................................7 MAXIPROX INSIDE VIEW SHOWING MOUNTING HOLE LOCATIONS ...................................................................................8 DATA PULSES - TIMING PARAMETERS .........................................................................................................................
Chapter 1 MaxiProx System Overview The MaxiProx Reader is a self-contained proximity Reader. The two piece polycarbonate enclosure has an O-ring that weather seals the enclosure pieces together and a cable fitting that seals the cable entry. The water-resistant unit is designed for outdoor use. The enclosure is mountable on a single gang electrical box. A bi-color LED and audible tone provide user feedback. Configurable open collector data outputs provide the data to the Host.
Chapter 2 Installation Procedure 2.1 Preparation Determine an appropriate mounting position for the MaxiProx. Install an electrical box or drill the appropriate mounting holes from inside the base with the cover removed for #6 fasteners. For optimum performance, the Reader should be mounted at least 4 inches away from any metallic surface 12-inch x 12inch or larger. The Autotune feature automatically compensates for incidental metal such as aluminum studs and conduit.
7-Conductor cable is required when using the Hold function or if the ground for the MaxiProx's power supply is not common with the ground of the Host. TB2 terminal 3, Data Return, is to be connected to the ground of the Host. (Alpha 1296 C or equivalent). 7-Conductor cable is required when the Hold function is used, and the power supply and Host "ground" are separate. (Alpha 1297 C or equivalent).
2.8 DipSwitch and Jumper Settings Verify the default settings according to the model ordered, or set the DIPswitches and Jumper positions according to the following. Table 3: DIPSwitch and Jumper Settings Switch Default Description 1. Interface mode 1 On See mode chart table 6 below 2. Interface mode 2 On See mode chart table 6 below 3. Interface mode 3 On See mode chart table 6 below 4. Beeper control On/Off On On - beep after valid card read. Off - no beep after valid card read. 5.
Table 8: Switch Description - SW5 Switch Default Description 1. Data Isolation 1 On 2. Data Isolation 0 On See 1 below See 1 below 3. RS422 Terminating Resistor On See 5 below 4. Serial Hardware line setting 1 Off See 6 below 5. Serial Hardware line setting 2 Off See 7 below 1. Open Collector Data Outputs SW5-1&2 when using Wiegand or Clock & Data Interface. The data outputs may be configured so the MaxiProx is electrically isolated from the Host pull-up resistors.
2.11 Power Supply The MaxiProx Reader can be operated over the full range of 11-28.5VDC. Current requirements are 200 mA average and 700 mA peak at 12 VDC input. At 24 VDC (21 to 28.5 VDC) input the average current is 260 mA and peak is 1.2 A. A linear regulated supply rated at 2.0 A is recommended. Noise from devices such as switching power supplies, computer monitors, and arc welders can reduce the read range or make the unit inoperable. Keep these devices at least 10 ft away from the Reader.
Figure 1: MaxiProx Front View __________________________________________________________________________________________________________ HID Corporation, 9292 Jeronimo Road, Irvine, CA 92618-1905, USA •Tel: (949) 598-1600, (800) 237-7769, Fax: (949) 598-1690 http://www.hidcorp.
Figure 2: MaxiProx interior view showing mounting hole locations __________________________________________________________________________________________________________ HID Corporation, 9292 Jeronimo Road, Irvine, CA 92618-1905, USA •Tel: (949) 598-1600, (800) 237-7769, Fax: (949) 598-1690 http://www.hidcorp.
Chapter 3 Installation Notes and Guidelines 3.1 Power Supply The recommended power supply is 12 or 24VDC, nominal, 2.0A current rating, linear regulated. The MaxiProx cycles through varying power stages and has a peak current demand of approximately 1.2A when in long range read mode. Average current consumption is about 260mA. Failure to provide an adequate current capacity power supply will result in reduced read range.
The MaxiProx should not be mounted within six feet of any monitors (VDTs or CRTs) because the scan frequencies of most monitors include frequencies that may interfere with the signal received from the access control cards. 3.4 Transponder Types The type of transponder used affects the read range of the MaxiProx. The various styles of HID cards and transponders use different types of antennas. The antenna type will determine the read range for that type of transponder.
Chapter 4 Application Notes 4.1 Wiegand Interface Description 4.1.1 Wiegand Message Format In the Wiegand format, the ID card is programmed with a specific bit pattern and the Reader acquires the data, checks the customer code and generally sends out the same bit pattern as previously programmed on the card. Consult factory for variations to this method. A 26 bit Wiegand format will be used in the examples below.
The voltage, current, and timing of the data pulses are measured at the Reader in reference to the power supply/signal ground at the Reader. The voltage, current and timing of a signal driving an auxiliary input device on a Reader is measured at the control panel that is controlling the input device (with reference to the signal ground at the panel). 4.1.3 Signal Levels The Data One, Data Zero, and LED Control conductors connect signals between the Reader and the panel.
Note The customer code is never transmitted or displayed. customer code 10 zeros sentinel parity bit even facility code card number parity odd [0 0 0 0 0 0 1] [0 0 0 0 0 0 0 0 0 0] [1] [0] [0 1 1 0 0 1 0 1] [0 0 0 0 0 0 1 1 0 0 1 1 0 0 0 0] [1] | 0 | 2 | 0 | 0 | 4 | C | A | 0 | 6 | 6 | 1 | Wiegand Output |0 | C | A | 0 | 6 | 6 | 1 | Hex code numbers [ 6 | 5 ][ 0 | 3 | 3 | 0 ] Decimal conversion [ 101 ][ 0816 ] 4.2 Clock and Data Interface Description 4.2.
Figure 4: Data Timing - Timing Chart card present data 0 0 0 0 0 0 0 0 1 1 1 0 0 0 0 1 1 1 1 1 clock/ strobe 1st valid bit bit time strobe width Note: the first 25 bits and trailing bits are zeros, not shown above. bit time = 1.5ms (default) strobe width = bit time/3 (33% of bit time), default = 500us Clock/Strobe is valid 1.
1248p 1248p 1248p1248p 1248p1248p 1248p1248p1248p1248p 1248p1248p1248p 1248p 1248p 1248p 1248p1248p1248p c000p Ccc0p CCC0p a000p dcb0p gfe0p jih0p mlk0p pon0p srq0p vut0p yxw0p BAz0p EDC0p HGF0p KJI0p Case 2: Customer Code = 74 are structured as follows: 421 8421 8421 8421 8421 8421 8421 8421 8421 8421 8421 CCC CCCC 1 aaaa bbbb cccc dddd eeee ffff gggg hhhh iiii CCC CCCC - Customer code 1 - fixed bit “1” aaaa - Most significant nibble of message bbbb - Second MSN cccc - next nibble h
The bit stream will consist of 25 leading zeros, the message and fill with zeros until the end of the message. The message will consist of a minimum of 210 bits. Example 00000000000000000000000000 11010 10000 01000 11001 11111 00100 00000000000000...000000 B 1 2 3 F LRC 4.2.6 Output Specification Vol = 0.8 V Voh = 3.5 V sink = 25 ma source = 5 ma 4.
