Paxton Access 654943 Net2 nano 1 door access control unit User Manual INSTRUCTION Net2 nano control unit
Paxton Access Ltd Net2 nano 1 door access control unit INSTRUCTION Net2 nano control unit
User Manual
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| Document ID | 1079166 |
| Application ID | fQ6DVeuq/Zy7J+2b+hLmrg== |
| Document Description | User Manual |
| Short Term Confidential | No |
| Permanent Confidential | No |
| Supercede | No |
| Document Type | User Manual |
| Display Format | Adobe Acrobat PDF - pdf |
| Filesize | 184.92kB (2311457 bits) |
| Date Submitted | 2009-03-11 00:00:00 |
| Date Available | 2009-03-11 00:00:00 |
| Creation Date | 2009-03-05 10:23:58 |
| Producing Software | Adobe PDF Library 7.0 |
| Document Lastmod | 2009-03-05 10:26:54 |
| Document Title | INSTRUCTION - Net2 nano control unit |
| Document Creator | Adobe InDesign CS2 (4.0) |
05/03/2009 Ins-30075-US Net2 nano control unit Paxton Access Technical Support 1.800.672.PAXT support@paxton.co.uk Technical help is available: Monday - Friday from 12:00 AM - 5:00 PM (PST) Saturday from 1:00 AM - 5:00 AM (PST) Documentation on all Paxton Access products can be found on our web site - http://www.paxton-access.com/ Net2 nano is a wireless based 1 door access control unit. It is recommended that a Net2Air site surveyor is used to determine the best position for the bridge and units. This unit requires a Net2Air bridge (USB or Ethernet) to communicate with the controlling PC running Net2 v4.14 or later software. Diagnostic LEDs To 12V DC power supply Reader/keypad Reader Data/D0 Clock/D1 Media Detect 0V Lock 123456 0889 0V Lock release 0V N.C. N.O. COM Alarm Entry 12V Exit Button 12345126 0V 12V Lock Outputs Green LED http://paxton.info/107 Relay Amber LED Caution: For 12V DC readers only Red LED 12V Power Net2 nano 12V Exit button (push to make) Green LED Exit Inputs PSU/Tamper * not connected Contact 0V This is the heartbeat of the system and should pulse regularly. This indicates that the processor is functioning. Contact 0V 0V Tamper PSU Net2Air wireless activity (Tx/Rx) - Blue Door contact switch (held closed by door) Tamper switch (optional) NOTE: A new unit requires approximately 30 seconds after initial power up to self configure. During this time the OK LED will not be flashing. The unit will not operate until this operation has completed. LED indications 12V Lock Relay Alarm Exit Contact Tamper PSU Net2Air OK (Green) (Orange) (Orange) (Red) (Orange) (Orange) (Orange) (Orange) (Blue) (Green flash) Power LED. The 12V lock output is energised. The relay is energised - (NO/COM contacts are closed). 12V Alarm output is active. The exit button contacts are closed. The door contacts are closed. The tamper contacts are closed. The PSU contacts are closed. Net2Air interface Tx/Rx activity. The internal software is running. Net2Air wireless communication The wireless Net2 nano is fully compatible with the hard wired Net2 range but there are several important differences that need to be understood before installing the equipment. The most important of these being the location of the units and their bridge components. These principles are therefore explained first before we move on to the Net2 nano unit itself. The access control unit connects to the Net2 software running on the PC using Paxton Access’ Net2Air proprietary wireless technology. The Net2Air USB bridge enables communication from the Net2 software to the Paxton Access nano family of products. Radio signals do not always behave as you might expect. For example, a mobile phone that displays a full signal on one part of the site will lose signal completely only a few metres away. These problems can be addressed by using the Net2 site surveyor kit. (690-200-US) See also: XAN1095 - Net2 nano - How does it work? < http://paxton.info/974 > AN1096 - How to plan a Net2 nano installation < http://paxton.info/975 > Ins-30096-US - Net2Air site surveyor < http://paxton.info/1193 > NOTE: A Net2 nano ACU or a Hands free interface cannot be installed in a Metal cabinet as this would block the RF signal used for the Net2Air wireless technology. Net2 nano PC / server operation Data transfer with wireless technology requires far more control and error checking than with a hard wired data line connection. Net2 classic runs with a server that originates and controls all the communications on the data line. This would not be efficient in a wireless environment. We therefore give the Nano controller the active role. Each Nano is always active and transmits data bursts (including a regular Heartbeat) every few seconds. The Net2 server then acts upon these requests for service. The PC requires at least one Net2Air bridge to communicate with a Nano. This can be a local Net2Air USB bridge (only one per system) and/or multiple Net2Air Ethernet bridge units connected to the PC via a TCP/IP connection. There is NO Net2 nano detection function. It is recognised that there could be security issues if the wireless units were detectable from outside the site. During installation, a nano unit makes a permanent one-to-one link with a Net2Air bridge and is then enrolled into the Net2 database. An entry is then made on the Doors screen and a special icon is used to denote the wireless connection. Net2 Server Reader Control unit The readers default indication has all the LEDs on. Access granted is denoted with a single flashing Green LED, Access Denied is a single flashing Red LED. PC Installation The current specification for compatible PC hardware, network and operating systems is available on our website at the following link: http://paxton.info/720 Control unit installation Wire the components to the Access Control Unit (ACU) as shown on the first page. This will include: Reader/Keypad Electric Lock Power supply Any other optional components Press the exit button or in the absence of an exit button short the 0V and exit terminals to test the relay function. The Relay LED will come on and the lock should release. Software installation Once all the ACUs have been tested and the Net2 nano powered up, the Net2Air bridges need to be configured. A USB Net2Air bridge will be registered by the Net2 software automatically. This displays in the Net2 Server Configuration Utility/Net2Air bridge as a fixed IP entry. To register an Ethernet Net2Air bridge, click on Detect and setup the IP addresses as required. See also:X Ins-30085-US Net2Air Ethernet bridge < http://paxton.info/1192 > Radio frequency If you are experiencing problems with the range or reliability this may be due to poor nano / bridge positioning. The unit is set to channel 11 (2.405 GHz) as this frequency is normally clear of other device transmissions. Technical support can advise if you are concerned about interference from adjacent radio based (WiFi) equipment. This product is not suitable for retail sale. All warranties are invalid if this product is not installed by a competent person. Enrolling a Net2 nano A Nano must first bind to a Net2Air bridge before it will enrol itself onto the Net2 system. The term ‘bind’ is used to denote the fixed relationship between a Nano and its bridge. Create a user record in the database and assign a Net2 token to the user. If you are not using PROXIMITY tokens you should still create the user record and assign a token number (Not a PIN) of your choice. These records can be deleted after the installation is complete. Connect a PROXIMITY reader to the Nano and then present the same user token previously assigned. (If you are enrolling a Keypad only unit, enter the token number on the keypad followed by * ) The Nano will then transmit this token number and will be looking for a response from a bridge. If more than one bridge replies, the Nano checks the signal strength and selects the strongest bridge to communicate with. The Net2 software confirms that this token number is in the database and if so registers this Net2 nano/bridge as a permanent binding. In future, if this bridge connection should fail, the Nano will NOT automatically select another bridge. You must click Detect on the doors screen to call all the Nanos currently enrolled on the database. They will then establish new links with the available bridges and each one will bind with the strongest signal. Delete / Reset the Net2 nano The Nano controller holds the address information for the bridge that it has bound with. It will therefore never communicate with any other bridge. This can cause problems if the unit is to be used in another location. 1. If the unit is in full communication with the Net2 system you can Delete the unit on the Doors screen and remove it from the database. This will also clear the bridge information from the Nano and return it to its factory settings. If a valid card is presented while it is still in range of the bridge, it will rebind. 2. If the unit is not in communication with its bridge, it can be given a hardware reset by linking Orange/Mauve on the reader port and power cycle the unit. This will clear its bridge address information. Software Configuration Door name: Name the ACU. Door open time: Set the door open time. Unlock the Door during: Permanently unlocks the door while this time zone is active. - Should be set to ‘At No Time’ for normal user operation. Reader: Settings for the Reader and Keypad. Outputs: Lock, Relay, Alarm. - Selects these outputs to be used by the Lock, Bell or Alarm functions. Alarm: Configures the settings for the different alarm types. Codes: Valid keypad codes can be viewed, added and removed (This tab is only displayed when a keypad is fitted) Events: Shows the events for this control unit only. Access Rights: Lists users who have access through this door. Name: Each reader can be named individually if required. Reader type: Set the reader type, if applicable. Keypad type: Set the keypad type, if applicable. Token data format: Select the type of cards being used on the system. (New formats can be created). Reader operating mode: Set the operating mode. Timed operating modes: A different operating mode can be configured within a time window. FCC Compliance This device complies with Part 15 of the FCC Rules. Operation is subject to the following two conditions: (1) this device may not cause harmful interference, and (2) this device must accept any interference received, including interference that may cause undesired operation. Changes or modifications not expressly approved by the party responsible for compliance could void the user’s authority to operate the equipment. This equipment must not be co-located with any other transmitter and must be used at a distance in excess of 20cm to the user. The party that incorporates this equipment into another host device is responsible for verification of the emissions produced by the final product and must adhere to the limits specified in FCC Part 15. Furthermore, a label must be applied to the exterior of the final product referring to this enclosed module, which states : “Contains Transmitter Module FCC ID: USE654943” or “Contains FCC ID: USE654943”. Here is the list of topics about this product that receive the most technical support inquiries. We list them here to help you speed up the installation and trouble shooting process. 1 - ACU fails to enrol onto the PC (WIRELESS PROBLEMS) QThe Net2 Nano must be in range of a Net2Air bridge. This can be checked with a Site Surveyor. Detailed advice Qcan be found on the website as follows:QXAN1095 - Net2 nano - How does it work? < http://paxton.info/974 > QXAN1096 - How to plan a Net2 nano installation < http://paxton.info/975 > QXIns-30096-US - Net2Air site surveyor < http://paxton.info/1193 > 2QQQQ QQQQ Readers/Keypads not working Software settings - Confirm that the settings of the reader or keypad are correct. Connections - Check the wiring and integrity of the connectors. If possible, test this reader on the other unit. Cable - Belden 9540 should be used to extend the reader cable (Max 100 yds). Twisted pair alarm cable should not be used. To confirm that an extended reader cable is not at fault, wire the reader direct into the reader port. Supply voltage - confirm that the reader has sufficient voltage. User token - Confirm that the user token used for testing is OK by presenting it to a known working reader. Interference - Confirm whether the reader works when tested ‘in hand’ and not mounted on the wall. Ensure that readers are not mounted back to back or there is no interference from other local RF devices. 3 - Why are some of the Net2 features (e.g. Fire alarm integration) not available on Net2 nano? QWireless communication is not suitable for saftey critical applications. 4 - Net2Air - What does this mean? QNet2Air is a term used to describe the wireless communication protocol used by Paxton Access products in much Qthe same way as Bluetooth. The Net2Air protocol is not open, only Paxton Access products can use this technology. QThe Net2Air protocol is based on the standard known as IEEE 802.15.4. It operates at 2.4GHz and can co-exist Qwith wireless LAN networks and other devices using this frequency such as DECT phones. All Paxton Access Qproducts employ AES128 encryption technology to ensure that all communication remains secure. Specifications Min Max Number of Cards 10,000 Number of PINS 10,000 Access Levels 250 Time Zones 64 1 sec 99,999 sec Number of Codes 50 Doors per ACU Reader ports per ACU Readers per port Keypads per port ACUs per Net2Air bridge 10 Net2Air bridge (data lines) per system 50 Features Maximum door open time Net2Air wireless range to ACU 30 yds Data retention after total power loss 60 days 6,000 Events stored in ACU with no server connection Electrical Voltage Min Max 11V DC 14.5V DC PCB Current (depending on activity) 120 mA Relay switchable voltage 24V DC Relay switchable current 2A Dedicated lock output current 1.1 A Alarm output current 1A 500 mA Reader port output current Carrier frequency Environment Operating temperature - Battery limits 2.405 GHz Min Max 0°C (32°F) 55°C (131°F) Width Height 4 1/8 in 3 1/4 in 7 in 7 in Waterproof Dimensions Control Unit Plastic Housing Typical 10 yds No Depth 5/8 in 1 5/8 in
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