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Title Ha-VIS RF-R500 RFID Reader Assembly manual - English version - Ha-VIS RF-R500 - Assembly Manual / Issue 1.0...
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No part of this manual may be reproduced in any form (print, photocopy, microfilm or any other process), processed, duplicated or distributed by means of electronic systems without the written permission of HARTING Electric GmbH & Co. KG, Espelkamp. Subject to alterations without notice.
Harting can give no warranty that the rights of third parties are not infringed by the use of the devices. If you plan such usage, please contact us at HARTING, to clarify potential patent or intellectual property rights issues.
We would like to receive your opinions, suggestions, and feedback on this documentation. You can email comments and suggestions to the Ha-VIS RFID documentation team at info@HARTING-RFID.com. Although we do not reply to emails sent to this address, we read all suggestions with interest.
• When working on devices the valid safety regulations must be observed. WARNING Special advice for wearers of cardiac pacemakers: Although this device doesn‘t exceed the valid limits for electromagnetic fields you should keep a minimum distance of 25 cm between the device and your cardiac pacemaker and not stay in the immediate proximity of the device’s antenna for any length of time. ATTENTION The reader Ha-VIS RF-R500-p offers the option to supply 24 V DC on the antenna outputs. If the voltage is applied directly to an antenna, the antenna can be destroyed and cause fire (see system manual section 4.4 CFG3). This power must only be used in combination with an external, optional antenna multiplexer. Observe before beginning with installation procedures. • In accordance with EN 50 110-1 /-2 (VDE 0105 Part 100), qualified personnel only are allowed to carry out transport, installation, commissioning and maintenance tasks. Guidelines contained in IEC 60 364 and HD 384 (DIN VDE 0100) as well as national accident prevention regulations must be adhered to. • Install connection and signal wires ensuring that the bus communication is not impaired by inductive or capacitive interferences. • The electrical installation must be carried out in accordance with the relevant regulations and standards (protective earth connection, wire cross-sections and so forth). • Ensure correct polarity when connecting the supply. Ha-VIS RF-R500 - Assembly Manual / Issue 1.0...
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Ha-VIS RF-R500 - Assembly Manual Electrical Safety Device is designed for operation with a safety extra low voltage (SELV) in accordance with IEC 950 / EN 60 950 / VDE 0805. ATTENTION Supplied by NEC Class 2 or LPS Power Supply only. HARTING Electric GmbH...
The following Readers are available: Reader type Description Ha-VIS RF-R500-p-EU Device version for Europe with PoE Ha-VIS RF-R500-c-EU Device version for Europe without PoE Ha-VIS RF-R500-p-US Device version for USA with PoE Ha-VIS RF-R500-c-US Device version for USA without PoE Table 1 Reader types 1.3 Available Accessories The following optional accessories are currently available: Identification Description Protection cap Protection caps with PG cable gland for IP 64 Ha-VIS RF-R500 DIN rail mounting kit Mounting of the reader onto DIN rail Table 2 Optional reader accessorie Ha-VIS RF-R500 - Assembly Manual / Issue 1.0...
Ha-VIS RF-R500 - Assembly Manual 2. Installation The Reader is designed for wall-mount, including outdoors. Holes for mounting on a wall are provided in the housing. Note In Turkey, RFID systems may only be installed indoor. It is not necessary to open the reader housing. Figure 1 Installation drawing HARTING Electric GmbH...
Connection terminals Push button Description Internal push button for complete configuration reset External push button for CPU-Reset Table 4 Push button function 3.1 Antenna connection ATTENTION The reader Ha-VIS RF-R500-p offers the option to supply 24 V DC on the antenna outputs. If the voltage is applied directly to an antenna, the antenna can be destroyed and cause fire (see system manual section 4.4 CFG3). This power must only be used in combination with an external, optional antenna multiplexer. The external SMA antenna connectors are positioned on the lower side of the reader. The maximum tightening torque for the SMA sockets is 0.45 Nm (4.0 lbf in). ATTENTION Exceeding the tightening torque will destroy the plug. Terminal Description ANT 1-4 Connection for external antennas (input impedance 50 Ω) Table 5 External antenna connection Ha-VIS RF-R500 - Assembly Manual / Issue 1.0...
Ha-VIS RF-R500 - Assembly Manual Figure 3 External antenna connection ANT1-4 and X1 for the power supply 3.1.1 Power supply connection on X1 The supply voltage of 24 V DC has to be connected to Terminal X1. Terminal Abbreviation Description X1 / Pin 1 Vcc – supply voltage 24 V DC ±5 % X1 / Pin 2 Ground – supply voltage Table 6 Pin assignment for power supply Figure 4...
3.2.1 Power Supply via PoE (Power over Ethernet) on X2 Optional the reader (only Ha-VIS RF-R500-p) can be powered via the LAN connector on X2 with the use of a PoE „Power over Ethernet“ power supply according to IEEE 802.3at*, Class 4 (30 / 25,5 Watt). The DC supply can be achieved via the free pin’s 4,5 and 7,8 (Midspan- Power). Also a “Phantom Powering” (Inline-Power) via the signal pins 1, 2, 3,and 6 is possible. * For detailed technical information regarding the 802.3at standard, please refer to the most recent edition of the corresponding IEEE specification. Figure 5 LAN and PoE connection Note Take care if PoE is used the maximum reader output power of the reader must be limited to 1 Watt. It must be ensured that the reader is supplied with 42,5 V DC (48 V DC – cable losses) at least. This functionality is only available with the reader models Ha-VIS RF-R500-p-EU and Ha-VIS RF-R500-p-US. If Pover over Ethernet is used WLAN is not available. ATTENTION An operation of an Ha-VIS RF-R500-p via an external power supply and Power over Ethernet (PoE) at the same time can cause interferences during operation. A power supply via PoE and over an external power supply at the same time is not recommended. Ha-VIS RF-R500 - Assembly Manual / Issue 1.0...
Ha-VIS RF-R500 - Assembly Manual Depending on the cable cross-section the following cable distances can be used. Cable cross-section (Cat. 5 ... 7) Maximum cable length for PoE 0.4 mm ≈ 30 m 0.6 mm ≈ 70 m Table 7 Maximum cable length if PoE is used 3.2.2 Ethernet-Interface on X2 (10/100Tbase) The Reader has an integrated 10/100Base-T network port for an RJ45. Connection is made on X2 and has an automatic “Crossover Detection” according to the 100Base-T Standard. With structured cabling Cat. 5 cables should be used. This ensures a reliable operation at 10 Mbps or 100 Mbps. The prerequisite for using TCP/IP protocol is that each device has a unique address on the network. All Readers have a factory set IP address.
WLI-UC-G300N-EU Cisco / Linksys Wireless Network USB Adapter WUSB100 Netgear Wireless-G 54 USB Adapter WG111 v3 Table 9 Successfully tested WLAN sticks Configuration Cloning The RFID Reader Ha-VIS RF-R500 supports full configuration cloning. The configuration of the RF-R500 can be stored on a USB stick, for example via the Ha-VIS RFID config software or the webinterface. If the USB stick with the configuration files is inserted into the reader (interface X4), the full configuration is automatically loaded on reboot of the RF-R500. 3.2.5 RS 232-Interface X6 The RS 232 interface is connected on X6. The transmission parameters can be configured by means of software protocol. Figure 8 RS 232 interface pin-outs on X6 Ha-VIS RF-R500 - Assembly Manual / Issue 1.0...
Ha-VIS RF-R500 - Assembly Manual Figure 9 Wiring example for connecting the RS 232 interface 3.2.6 RS 485-Interface X6 The connection of the RS 485 interface take place via the X6 connector as well. The interface parameter can be configured via software protocols. Figure 10 RS 485 interface pin-outs on X6 Abbreviation Description RS 485 – GND RS 485 – (A -) RS 485 – (B +) Table 10 RS 485 interface pin-outs 3.2.6.1...
3.3 Digital Inputs X5 The optocouplers on Terminal X5 are galvanically isolated from the Reader electronics and must therefore be externally supplied. Figure 11 Optocoupler pin-outs IN1 – IN5 Figure 12 Internal and possible external wiring of the optocouplers Optocoupler input (X5 / IN1-5): The input LED associated with the optocoupler is connected internally to a series resistor of 500 Ω. For supply voltages of greater than 10V the input current must be limited to max. 20 mA by means of an additional series resistor (see table 11). Table 11 shows the necessary external resistors for various external voltages U Ha-VIS RF-R500 - Assembly Manual / Issue 1.0...
Ha-VIS RF-R500 - Assembly Manual External voltage U Required external series resistor R 5 V ... 10 V 11 V ... 15 V 270 Ω 16 V ... 20 V 560 Ω 21 V ... 24 V 820 Ω Table 11 Required external series resistor R Note The input is configured for a maximum input voltage of 5 ... 10 V DC and an input current of max. 20 mA. Polarity reversal or overload on the input will destroy it. 3.4 Outputs 3.4.1 Digital Outputs X5 Optocoupler output (X5/1-2):...
Terminals Figure 14 Internal and possible external wiring of the optocoupler outputs OUT1-2 Note The output is configured for max. 24 V DC / 30 mA. Polarity reversal or overload on the output will destroy it. The output is intended for switching resistive loads only. 3.4.2 Relays X5 There are 3 relay outputs available on connector X5. Figure 15 Relay output pin-outs REL1-3 Ha-VIS RF-R500 - Assembly Manual / Issue 1.0...
Ha-VIS RF-R500 - Assembly Manual Note The relay output is configured for max. 24 V DC / 2 A constant load. The switching current must not exceed 1A. The relay output is intended for switching resistive loads only. If an inductive load is connected, the relay contacts must be protected by means of an external protection circuit. Figure 16 Internal and possible external wiring of the relay output HARTING Electric GmbH...
FLASH FLASH FLASH Firmware flash into EEPROM. (Please do not (synchronous) (synchronous) (synchronous) switch off the reader or disconnect the interface cable Configurations Reset: FLASH FLASH FLASH While T1 is pushed and hold for maximal 5 s (light in (light in (light in sequence) sequence) sequence) After T1 has been pushed and hold for 5 s. Configuration Reset has been finished. Input / Output LED (yellow) Description ④ Yellow Configurable LED Can display the status of a digital input or output Ha-VIS RF-R500 - Assembly Manual / Issue 1.0...
Ha-VIS RF-R500 - Assembly Manual Input / Output LED ANT 1 ... 4 Description ⑤ Green HF Power switched on Blau Tag-Detect Antenna impedance error (> 50 Ω or < 50 Ω) Table 12 Configuration of the status LEDs 4.2 Reset Push Button Fig. 17 shows the position of the reset push buttons T1 and T2. At the right side of the connector X6 the push button T2 is positioned. With this push button a CPU-Reset can be performed. With the push button T1 within the reader housing on left side of X3 a complete configuration reset can be performed. For performing a reset you should use a paper clip and push the button T1 for at least 5 s until the 3 status LEDs (left side) are switched on continuously. Figure 17 Position of the reset switches T1 and T2 4.3 Reader Power adjustment...
+ antenna gain (in dBi) – 36 dBm (4 W e.i.r.p.) Damping of cable (in dB) = P + antenna gain (in dBic) – 3 dB – 36 dBm (4 W e.i.r.p.) The antenna gain of the circular polarized antenna Ha-VIS RF-ANT-WR80-30-US is 10.5 dBic. This relates to a gain of a linear antenna of 7.5 dBi (10.5 dBic – 3dB). This results in a minimal damping of the cable of a = 30 dBm + 7,5 dBi – 36 dBm = 1,5 dB Ha-VIS RF-R500 - Assembly Manual / Issue 1.0...
Ha-VIS RF-R500 - Assembly Manual Examplel: Using the antenna cable Belden H155 with a damping of 0.3 dB/m, this results in a mandatory minimum antenna cable length of: = a / 0.3 dB/m = 1.5 dB / 0.3 dB/m = 5 m 4.3.3. CN-Reader The operation of the RFID Reader is allowed according to the Chinese standards / regulation in a frequency range of 920.5 … 924.5 MHz with a maximum radiated power of 2 W e.r.p (Effective Radiated Power). The in the reader configured output power P depends on the antenna gain in dBi and the attenuation of the antenna cable. If a circular polarized antenna is used the antenna gain [dBic] can be reduced by 3 dB. At a linear polarized antenna the maximum linear antenna gain [dBi] must be used. - Antenna Gain + Cable loss + 2.1 dB** e.r.p. ** Correction Factor to convert the radiated power from e.r.p to e.i.r.p. For the calculation of the reader output power POut an Excel file „Calc-RF-Power.xls“ can be used. Available from HARTING. An example for calculation is descripted in chapter 4.3.1 on page 16. 4.3.4 Japan Reader Lecteur au Japon In accordance with the approval for Japan, ARIB STD-T106, an output power at the SMA socket of the reader POut of 0.7 W (28.5 dBm) is permitted. The power radiated from the antenna may...
Ha-VIS RF-R500-p-US Reader name: Ha-VIS RF-R500-c-US Ha-VIS RF-R500-c-US FCC ID: Z4NRF-R500 9941A-RFR500 Note for USA and Canada This device complies with Part 15 of the FCC Rules and with RSS-210 of Industry Canada. 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. Unauthorized modifications may void the authority granted under Federal communications Commission Rules permitting the operation of this device. This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference when the equipment is operated in a commercial environment. This equipment generates, uses, and can radiate radio frequency energy and, if not installed and used in accordance with the instruction manual, may cause harmful interference to radio communications. Operation of this equipment in a residential area is likely to cause harmful interference in which case the user will be required to correct the interference at his own expense. Ha-VIS RF-R500 - Assembly Manual / Issue 1.0...
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Ha-VIS RF-R500 - Assembly Manual WARNING Changes or modification made to this equipment not expressly approved by HARTING may void the FCC authorization to operate this equipment. Désignation du produit : Ha-VIS RF-R500-c-US Ha-VIS RF-R500-p-US Désignation du lecteur : Ha-VIS RF-R500-c-US Ha-VIS RF-R500-c-US FCC ID: Z4NRF-R500 9941A-RFR500 Avis pour les USA et le Canada Cet appareil est conforme à la section 15 des règlementations FCC ainsi qu’à la norme RSS- 210 d’Industrie Canada. Son exploitation est soumise au respect des deux conditions suivantes. (1) cet appareil ne doit pas causer d’interférences nuisibles, et (2) cet appareil doit accepter toute interférence reçue, y compris des interférences qui peuvent provoquer un fonctionnement non désiré.
5.2.4 USA (FCC) and Canada (IC) approved antennas Antennes approuvées aux USA (FCC) et au Canada (IC) This radio transmitter (identify the device by certification number, or model number if Category II) has been approved by Industry Canada to operate with the antenna types listed below with maximum permission gain and required antenna impedance for each antenna type indicated. Antenna types, not included in this list, having a gain greater than the maximum gain indicated for that type, are strictly prohibited for use with this device Following antennas are approved by FCC according FCC Part 15 and IC Canada according RS210: • Ha-VIS RF-ANT-LR10 (-30 dBi dBic) • Ha-VIS RF-ANT-MR20-US (2.5 dBic) • Ha-VIS RF-ANT-WR30-US (8.3 dBic) • Ha-VIS RF-ANT-WR80-30-US (10.5 dBic) When installing the device in areas covered under FCC 47 CFR Part 15 a minimum separation of 23 cm (9 inch) between antenna and the human body must be maintained. Ha-VIS RF-R500 - Assembly Manual / Issue 1.0...
Ha-VIS RF-R500 - Assembly Manual Le présent émetteur radio (identifier le dispositif par son numéro de certification ou son numéro de modèle s’il fait partie du matériel de catégorie II) a été approuvé par Industrie Canada pour fonctionner avec les types d’antenne énoncés ci-dessus et ayant un gain admissible maximal et l’impédance requise pour chaque type d’antenne. Les types d’antenne non inclus dans cette liste, ou dont le gain est supérieur au gain maximal indiqué, sont strictement interdits pour l’exploitation de cet appareil. Les antennes suivantes sont homologuées par la FCC conformément à la section 15 des réglementations FCC ainsi que par IC Canada conformément à la norme RS-210 : • Ha-VIS RF-ANT-LR10 (-30 dBi dBic) • Ha-VIS RF-ANT-MR20-US (2.5 dBic) • Ha-VIS RF-ANT-WR30-US (8.3 dBic) • Ha-VIS RF-ANT-WR80-30-US (10.5 dBic) When installing the device in areas covered under FCC 47 CFR Part 15 a minimum separation of 23 cm (9 inch) between antenna and the human body must be maintained. Lors de l’installation de l’appareil dans les zones couvertes par la directive FCC 47 CFR section 15, une distance minimale de 23 cm (9 pouces) doit être respectée entre l’antenne et le corps humain. 5.3 China When properly used this radio equipement conforms to the Chinese RFID Standards. 5.4 Japan Japon In Japan, the RFID Reader Ha-VIS RF-R500 may only be operated and used in the following frequencies: 916.8 MHz, 918.0 MHz, 919.2 MHz and 920.4 MHz. Before first installation, the distributor must verify that those frequencies are used only. The antennas used for this transmitter must be installed to provide a separation distance of at least 23 cm from all persons and must not be located or operating in conjunction with any other antenna or transmitter, except as listed for this product‘s certification. The maximum allowed configured power is 28.5 dBm. This is due to the high antenna gain of the Ha-VIS RF-ANT-WR80-30 antenna. In Japan, it is mandatory to obtain a licence to operate this reader.
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Radio Approvals The reader can only be used in combination with the following approved antennas: • Ha-VIS RF-ANT-LR10 (-30 dBi) • Ha-VIS RF-ANT-sMR20-US (-10.0 dBic) • Ha-VIS RF-ANT-MR20-US (2.5 dBic) • Ha-VIS RF-ANT-WR30-US (8.3 dBic) • Ha-VIS RF-ANT-WR80-30-US (10.5 dBic) The operation of the reader with other antennas, other than those approved, is strictly prohibited. Le lecteur n’a le droit d’être utilisé qu’en combinaison avec les antennes homologuées suivantes : • Ha-VIS RF-ANT-LR10 (-30 dBi) • Ha-VIS RF-ANT-sMR20-US (-10.0 dBic) • Ha-VIS RF-ANT-MR20-US (2.5 dBic) • Ha-VIS RF-ANT-WR30-US (8.3 dBic) • Ha-VIS RF-ANT-WR80-30-US (10.5 dBic) L’utilisation du lecteur avec d’autres antennes que celles homologuées est strictement interdite. Ha-VIS RF-R500 - Assembly Manual / Issue 1.0...
Ha-VIS RF-R500 - Assembly Manual 6. Technical Data Mechanical Data • Housing Aluminium, powder-coated • Dimensions ( W x H x D ) 261.3 x 157.3 x 68 mm 10.29 inch x 6.19 inch x 2.68 inch • Weight 2.0 kg / 4.4 lb • Degree of protection IP 53 (with protection cap: IP 64) • Colour Anthracite Electrical Data Supply voltage 24 V DC ±5 % (Noise Ripple : max. 150 mV) optional PoE (Power over Ethernet) (mind. 42,5 V DC) (up to 1 Watt reader output power) • Power consumption max. 35 VA • Operating Frequency EU Reader 865.7 ... 867.5 MHz (4 Channel Plan) US Reader 902 ... 928 MHz (US CFR 47 Part 15.247)
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Technical Data Applicable standards • RF approval Europa EN 302 208 USA US 47 CFR Part 15 Japan ARIB STD-T106 • EN 301 489 • Safety Low-Voltage EN 60 950 Human Exposure EN 50 364 Ha-VIS RF-R500 - Assembly Manual / Issue 1.0...
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Ha-VIS RF-R500 - Assembly Manual HARTING Electric GmbH...
-25°C~+50°C / -13°F~ +122°F 保管時 -25°C~+85 °C / -13°F~ +185 °F • 相対湿度 5%~95%(結露なきこと) • 振動 EN 60 068-2-6 10 Hz~150 Hz : 0.075 mm / 1 g • 衝撃 EN 60 068-2-27 加速:: 30 g Ha-VIS RF-R500 - 組立てマニュアル / 1.0版...
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Ha-VIS RF-R500 - 組立てマニュアル 適用規格 • RF認可 欧州 EN 302 208 米国 US 47 CFR Part 15 日本 ARIB STD-T106 • EN 301 489 • 安全性 低電圧 EN 60 950 人体暴露 EN 50 364 HARTING Electric GmbH...
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Subjects to alterations without notice / 本書は通知なく変更される場合があります Ha-VIS RF-R500 RFID Reader Assembly manual / 組立てマニュアル Issue / 版 1.0 Status / ステータス: 2014-08 / English / 日本語 Printed in the Federal Republic of Germany Ha-VIS RF-R500 RFID ReaderAssembly manual / 組立てマニュアル/ Issue/版 1.0...