submitted | available | document details (if available) | source link |
---|---|---|---|
various | user manual | Users Manual | 1.08 MiB |
NCC4 Date: 5 October 2004 Version 2.10 This information is furnished for guidance, and with no guarantee as to its accuracy or completeness; its publication conveys no license under any patent or other right, nor does the publisher assume liability for any consequence of its use; specifications and availability of goods mentioned in it are subject to change without notice; it is not to be reproduced in any way, in whole or in part, without the written consent of the publisher. _________________________________________________________________________________________________________ Nedap Retail Support P.O. Box 102 NL-7140 AC Groenlo the Netherlands Support
+31 (0) 544 47 15 55 support-rs@nedap.com Visitors address T e c h n i c a l S u p p o r t :
H. Hammer
+31 (0) 544 47 15 19 hans.hammer@nedap.com H. Broekhuis
+31 (0) 544 47 15 02 han.broekhuis@nedap.com Postal address:
Fax
+31 (0) 544 46 58 14 Nedap Retail Support Postbus 102 7140 AC Groenlo Nedap Retail Support Parallelweg 2d Groenlo Netherlands 2004 Nedap Retail Support - Netherlands Parallelweg 2d, 7141 DC Groenlo The software / hardware described in this book / file is furnished under a license agreement and may be used only in accordance with the terms of the agreement. Documentation version 2.10 Copyright Notice All Rights Reserved. Any technical documentation that is made available by Nedap Retail Support is the copyrighted work of Nedap Retail Support and is owned by Nedap Retail Support. NO WARRANTY. The technical documentation is being delivered to you and Nedap Retail Support makes no warranty as to its accuracy or use. Any use of the technical documentation or the information contained therein is at the risk of the user. Documentation may include technical or other inaccuracies or typographical errors. Nedap Retail Support reserves the right to make changes without prior notice. No part of this publication may be copied without the express written permission of Nedap Retail Support, Parallelweg 2d, 7141 DC Groenlo, Netherlands. Trademarks Nedap, the Nedap logo, Nedap EASi/Net and the Nedap EASi/Net are registered trademarks of Nedap N.V. Groenlo. Other product names mentioned in this manual may be trademarks or registered trademarks of their respective companies and are hereby acknowledged. Printed in the Netherlands Nedap Retail Support 2004 Groenlo Holland
NCC4 2
2.10
10.5.2004
GO T a b l e o f c o n t e n t Postal address:
Fax DC power supply HF Data-com RS 232 interface I/O connector Hand-terminal connector The following points can be used Indicator leds Testpoints Specifications Revison-view:
2 2 5 5 5 5 5 5 6 6 6 7 8 Nedap Retail Support 2004 Groenlo Holland
NCC4 3
2.10
10.5.2004
GO O S / T N e t w o r k C o m m u n i c a t i o n & C o n t r o l u n i t The Network Communication & Control unit (NCC4) in the OS/T has several functions:
Supplying the 33V DC power supply for all the units in the system. On 1 NCC4 its possible to connect up to 16 receiver (NR4) or transmitters (NT4) units. Generating the HF sync signal for the whole system. This HF signal has a frequency of four times 8.2 MHz and sweeps between 30.... 36 MHz. One NCC4 has four outputs and on each output you can connect a NR4, NT4 or an other NCC4. The NCC4 is data-com master for all connected units. All data-communication between the connected units and the NCC4 will be initiated from the NCC4. With the external sync input from the NCC4 its possible to integrate the NCC4 in a larger network with multiple NCC4's. Each NCC4 has a RS 232 communication connector from which its possible to connect to the outside world, for example to a modem or to a PC. With this connection several things can be done, such as remote-diagnostics and firmware-upgrades. Figure 1 shows the block diagram of the OS/T NCC4. Fig.1 Nedap Retail Support 2004 Groenlo Holland
NCC4 4
2.10
10.5.2004
GO D e s c r i p t i o n o f t h e N C C 4 :
DC power supply The 33 Volt DC Power voltage from the OS/T system is generated in a Switched-mode power unit, which is connected with a short cable on connector K5. The power supply has a continuous DC output current rating of 3.2 A. HF The HF signal is generated in a VCO. This VCO uses for its frequency control the 3 signals from the local DSP: TD, in advance of the start pulse and T1 and T2 on 345 and 1334 s after the start pulse. The signals T1 and T2 mark the time that the frequency of the NT4 passes the 7.7 and 8.7 MHz. A saw-tooth generator generates the waveform, necessary to sweep the VCO. The saw-tooth generator exists of a capacitor, charged with a constant current and is discharged at every pulse. Regulation of the VCO happens only in the fly-back period to get the highest possible signal purity. By using a buffer stage the HF-signal gets the requested level and will be merged with the data-com signal. Then this signal is distributed to four output connectors K1 till K4. Data-com One of the important features from the OS/T system is the data-com over the coax-cable. With this feature its no longer necessary to use an extra data-cable between the units, which simplify the installation of the system. The NCC4 plays a central roll in providing the data-com. All the connected units are interrogated periodically by the NCC4. If there are messages like an alarm on a connected NR4, then the NCC4 will be process this and takes the necessary action: Sending a command, to turn on the lamps on the activated aisle. At the beginning of each sweep, on a fixed timeslot, the NCC4 sends a data-block. This data-block may contain a question for a connected NR4 or NT4. The answer will be transmitted in another time-
slot. The transmission of data is accomplished by adding small pulses on the HF signal. With a low pass filter and a sensitive amplifier these pulses can be recovered on the receiving side.. If multiple NCC4's are necessary to be fitted in a larger installation, then they have to be linked. Every NCC4 is then a master for his own segment. The upper neighbour of a NCC4 is connected to a slave sync input, while the under neighbour in the circuit will be connected on an output. The slave sync input is doubled to link the incoming cable to the next segment of the upper neighbour. When the NCC4 is the last one in a chain a terminator jumper must be placed. A slave NCC4 may be switched off without disturbing the data communication. RS 232 interface Each NCC4 is equipped with a RS232 connector. With this its possible to connect a modem or a PC to communicate with the OS/T system. With these capabilities you can use remote-diagnostics, firmware-upgrade and system configuration. The communication uses the standard UART circuit. I/O connector The NCC4 comes with an I/O connector with four opto-coupler inputs, four opto-coupler outputs and four relay outputs with one voltage free make-and-break contact. All in- and outputs are galvanic separated from the power supply. The in- and outputs may be used for camera activation, metal detection alarm, extra alarm-lamps. The functionality of the in- and outputs is determined by the software. Hand-terminal connector A standard NEDAP RS Handheld terminal may be connected to the NCC4. With these HT you can edit the various local settings. Nedap Retail Support 2004 Groenlo Holland
NCC4 5
2.10
10.5.2004
GO Figure 2 shows the component arrangement of the NCC4 (Hardware version 4):
50 ohm terminator in aid of K4 50 ohm terminator in aid of K202 K10 K11 K202 RS 485 interface connector K203 RS 232 interface connector K205 Hand-terminal connection K206 Relay outputs Ry3, Ry4 K207 Relay outputs Ry1, Ry2 K208 Opto outputs 1-4 K209 Opto inputs 1-4 C12 VCO linearity Output Output Output Output 32V DC power input power LED connection 50 ohm terminator in aid of K1 50 ohm terminator in aid of K2 50 ohm terminator in aid of K3 The following points can be used K100 slave sync input K101 slave sync input K102 50 ohm terminator K1 K2 K3 K4 K5 K6 K7 K8 K9 Indicator leds ( Y = yellow, Rd = red, Gr = green) D27 Power (Gr) D220 NCC4 (Y) D221 NCC4 comm fault (Rd) (On= a segment doesnt answer) D2 D3 Testpoints Sweep voltage Tp6 Tp7 Master Tx Tp8 Master Rx Tp9 Master Clk Tp15 Slave Clk Tp16 Slave HF in Tp14 Slave HF 32MHz Tp11 Slave Tx Tp12 Slave Rx Tp13 Slave Start Tp20 T2 Tp21 T1 Tp22 TD
(On= a tag is detected by the NR4) Sweep lock(Y) Center lock(Y) Nedap Retail Support 2004 Groenlo Holland
NCC4 6
2.10
10.5.2004
GO Specifications Mains NCC4:
Power Supply Power Consumption NCC4-pcb:
Power supply Current consumption Sync input signal Outputs (4x) Frequency sweep Sweep frequency Maximal DC load to one or more outputs Maximal DC load to one or more outputs 230 Volt 50 Hz (90-220 Volt 50-60 Hz) Max 150 Watt 33 Volt DC 100 mA (excl connected slave units) 30-36 MHz, minimal 4 dB in 50 ohm (1Vtt) 30-36 MHz, nominal 10 dB in 50 ohm (2Vtt) 1400 kHz 600 Hz saw tooth form. 3.2 A (ca 16 slave units)at 230 V 2.0 A (ca 10 slave units)at 115 V Nedap Retail Support 2004 Groenlo Holland
NCC4 7
2.10
10.5.2004
GO Revison-view:
Hardware version 5:
Index Date april 2000 Description
- Jumper K11 removed and K202 became a feature connector.
- Jumper K102 moved a little.
- Components are removed / changed. Perform Nedap Nr Nedap Retail Support 2004 Groenlo Holland
NCC4 8
2.10
10.5.2004
GO 2 C h a p t e r M D R e c e i v e r : A r t n o . 7 8 1 8 3 6 0 Description The 66 kHz signal enters the receiver through a band-pass filter. A low noise opamp amplifies the signal after which its available as two opposite signals. These signals are passed through an electronic switch (4066). Through the data cable another 66 kHz sinus shaped signal enters which is primarily shaped into two block signals. The two opposite shaped signals each are feed to an electric switch, which is controlled by the two block signals. The output of these switch looks like a double phase rectified signal This signal then enters two separate filter blocks; one produce a metal signal and the other a noise signal. These two signals are compared in the last opamp stage producing an alarm, which is available on the data cable. The block diagram of the MD receiver:
RX in 66Kc metal 66Kc NE5532 4066 TL082 TL082 I/O 66Kc 74CD40106 TL072 noise Antennas other than EQ45/EQ30 The other antennas in which the MD is used must be connected to the a-synchronous/symmetrical antenna input. The antenna selector jumper must be set in the right position. See also the component arrangement Manual Metal Detection MK2 NEDAP Retail Support 2002 7
This product uses the FCC Data API but is not endorsed or certified by the FCC