Profile Series v.N1 Access Control Lock Operating Manual For assistance, contact SARGENT at 800-810-WIRE (9473) or visit www.sargentlock.com.
Table Of Contents TABLE OF CONTENTS .................................................................................................. 2 SECTION 1: INTRODUCTION ........................................................................................ 3 1.1 1.2 1.3 1.4 PRODUCT DESCRIPTION ................................................................................................... 3 PRODUCT FEATURES ........................................................................................................
Section 1: Introduction 1.1 Product Description The Profile Series v.N1 Access Control Lock is designed to integrate into an existing Wiegand access control system. The unit consists of three components: the Reader(s), the Interface Module and the Auxiliary Relay Board. The Reader resides within the exterior escutcheon on each door and connects to the prox antenna, the keypad and it wires back to the Interface Module. The Interface Module connects the v.
1.3 Specifications Electrical Specifications Operating Voltage Current Draw 12 to 30 VDC Reader: 36mA (Typical); 46mA (Max) Interface Module: 59mA (Typical); 182mA (Max)* Aux Relay Board: 17mA (Typical); 386mA (Max)* *The max current draw on the Interface Module was calculated by adding 18mA for each relay energized. The max current draw on the Aux Relay Board was calculated by adding 21mA for each relay and LED.
1.4 LED Functions The following chart describes the function of the LED’s on the circuit boards.
Section 2: System Operation The following section discusses the overall operation of the Profile Series v.N1 Access Control Lock. Section 3 covers how to configure the system to fit your application. 2.1 Presenting a Proximity Card / Entering a Keypad Code As mentioned above, the Reader is the device used at the door to gain access. Depending on the system, the user has the option to enter either keypad data, present a proximity card or both.
2.2 Operating the Solenoid The Reader operates a solenoid locking device. Once the access control system validates the users keypad or card data, the door can now be unlocked. Shorting the two lock terminals on the Interface Module together activates the locking device. Connect these terminals to a normally open dry contact on the access control panel used to control the door. When the short is removed the locking device returns to the locked condition. The solenoid configuration is discussed in section 3.
Section 3: System Configuration This section explains how to configure your Profile Series vN.1 Access Control Lock system. Each sub-section describes the various configuration options. At the end section 3 there is a chart that shows all the dip-switch settings for quick reference. 3.1 Selecting the Reader Address One Interface Module can support from one to four Readers. You must assign each Reader an address before you connect it to the Interface Module.
3.2 Configuring the Solenoid The solenoid can operate in either fail-safe or fail-secure mode. Fail-safe means the solenoid is energized in the locked position and is then de-energized when unlocked. This also means when power is lost the solenoid is de-energized and the door is unlocked. Fail-secure is the opposite, meaning the solenoid is de-energized in the locked position and is then energized when unlocked. When power is lost the solenoid remains de-energized and the door is locked.
3.5 Dip-Switch Setting Chart The charts below show all the dip-switch settings on the Interface Module and the Reader. If a switch is not used, leave it open.
Section 4: Wiring The following section contains diagrams and descriptions detailing how to wire the Profile Series v.N1 Access Control Lock. 4.
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4.4 Wiring the Reader to the Interface Module Using One Power Supply The Diagram below shows how to wire the Reader to the Interface Module using a single power supply. If you are connecting multiple Readers (up to 4), wire them in parallel using terminal strips TS2 and TS3, following the diagram below. The chart also shows these connections. Connect the power supply to TS1 as shown.
4.5 Wiring the Reader to the Interface Module Using Multiple Power Supplies The Diagram below shows how to wire the Reader to the Interface Module using more than one power supply. When you are using multiple power supplies do not connect the Reader +12-30VDC (J2, pin 3) or earth ground (E1) to the Interface Module. Wire the Reader +12-30VDC and earth ground connections to the additional power supply.
4.6 Wiring a solenoid to the Reader The diagram below shows how to connect a solenoid to the Reader. The solenoid is connected to connector J7 as shown.
4.7 Connecting the Aux Relay Board to the Interface Module The Aux Relay Board is connected to the Interface Module with a 10-position wire harness. This wire harness is plugged into P1 on both boards, as shown in the diagram below.
4.8 Wiring a Door Position Switch (DPS), Request to Exit (RX) switch, Latch Bolt (LX) and Deadbolt Monitor (DX) switch to the Reader The diagram below shows how to connect a normally open Request to Exit device and a normally closed latch held closed door position switch. When the RX device is closed, the RX relay on the Interface Module energizes. When the door position switch is opened, the door contact relay on the Interface Module de-energizes.
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