Innovative Technology BV20 User Manual

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Doc: GA02118
User Manual BV20
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Document Name:
GA02118 User Manual BV20
Document Version:
1.0
Date of Release:
13-04-2018
TABLE OF CONTENTS
1 DOCUMENT INTRODUCTION .............................................................................................................. 4
1.1 RELATED DOCUMENTS ..................................................................................................................................... 4
1.2 MANUAL AMENDMENTS .................................................................................................................................. 4
1.3 COPYRIGHT .................................................................................................................................................... 4
1.4 LIMITED WARRANTY........................................................................................................................................ 4
1.5 PRODUCT SAFETY INFORMATION ....................................................................................................................... 5
1.6 DISCLAIMER ................................................................................................................................................... 5
2 PRODUCT INTRODUCTION ................................................................................................................. 7
2.1 GENERAL DESCRIPTION .................................................................................................................................... 7
2.2 KEY FEATURES ................................................................................................................................................ 7
2.3 TYPICAL APPLICATIONS .................................................................................................................................... 7
2.4 COMPONENT OVERVIEW .................................................................................................................................. 7
2.4.1 Module Options ................................................................................................................................ 8
2.5 BEZEL OPTIONS .............................................................................................................................................. 8
2.6 CASHBOX OPTIONS ......................................................................................................................................... 8
3 MECHANICAL INSTALLATION ............................................................................................................. 9
3.1 COMPATIBILITY ............................................................................................................................................... 9
3.1.1 Hardware Compatibility ................................................................................................................... 9
3.1.1.1 Machine Mounting ................................................................................................................................. 9
3.1.1.2 Machine Interfacing ................................................................................................................................ 9
3.1.1.3 Power Supply .......................................................................................................................................... 9
3.1.2 Software Compatibility ...................................................................................................................10
3.1.2.1 Interface Protocols ............................................................................................................................... 10
3.1.2.2 Re-programming ................................................................................................................................... 10
3.2 ENTRANCE WIDTH SETTINGS ...........................................................................................................................11
3.2.1 66mm width setting .......................................................................................................................11
3.2.2 72-mm width setting ......................................................................................................................11
3.3 CASHBOX/BASEPLATE MOUNTING ...................................................................................................................12
3.3.1 Cashbox/Baseplate Fitting .............................................................................................................12
3.4 MACHINE MOUNTING ...................................................................................................................................12
3.4.1 BV20 Position .................................................................................................................................12
3.4.2 Earth Bonding .................................................................................................................................13
3.4.3 Screw Specifications .......................................................................................................................13
4 SOFTWARE INSTALLATION AND CONFIGURATION ............................................................................ 14
4.1 INTRODUCTION.............................................................................................................................................14
4.2 SOFTWARE DOWNLOADS ...............................................................................................................................14
4.3 DRIVERS ......................................................................................................................................................14
4.4 DATASET/FIRMWARE PROGRAMMING ..............................................................................................................14
4.4.1 Validator Manager .........................................................................................................................14
4.4.1.1 General Description .............................................................................................................................. 14
4.4.1.2 System Requirements ........................................................................................................................... 14
4.4.1.3 Hardware Setup .................................................................................................................................... 15
4.4.1.4 Switching to Programming Mode (SSP) ................................................................................................ 15
4.4.1.5 Programming the device ...................................................................................................................... 16
4.4.2 DA3 .................................................................................................................................................17
4.4.2.1 General Description .............................................................................................................................. 17
4.4.2.2 System Requirements ........................................................................................................................... 17
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4.4.2.3 Re-programming via DA3 ..................................................................................................................... 18
4.4.3 Remote Updates .............................................................................................................................19
4.4.4 Configuration Card .........................................................................................................................20
4.4.4.1 General Description .............................................................................................................................. 20
4.4.4.2 Re-programming via Configuration Card.............................................................................................. 20
5 PROTOCOLS AND INTERFACING ....................................................................................................... 21
5.1 INTRODUCTION.............................................................................................................................................21
5.2 SSP AND ESSP .............................................................................................................................................22
5.2.1 General Description ........................................................................................................................22
5.2.2 Pin Assignments .............................................................................................................................22
5.2.3 Setup Examples ..............................................................................................................................23
5.3 CCTALK® ......................................................................................................................................................24
5.3.1 General Description ........................................................................................................................24
5.3.2 Pin Assignments .............................................................................................................................24
5.3.3 ccTalk® DES Encryption ...................................................................................................................25
5.3.4 Setup Example Drawing/s ..............................................................................................................25
5.4 SIO AND SI2 ................................................................................................................................................26
5.4.1 General Description ........................................................................................................................26
5.4.2 Pinout .............................................................................................................................................29
5.5 MDB .........................................................................................................................................................30
5.5.1 General Description ........................................................................................................................30
5.5.2 Pinout .............................................................................................................................................31
5.5.3 IF5 Interface ...................................................................................................................................32
5.5.4 MDB PSU ........................................................................................................................................32
5.5.5 Setup Example Drawing/s ..............................................................................................................33
5.6 PARALLEL ....................................................................................................................................................35
5.6.1 General Description ........................................................................................................................35
5.6.2 Pinout .............................................................................................................................................35
5.6.3 Inhibit Control .................................................................................................................................35
5.6.4 Escrow Control................................................................................................................................36
5.6.5 Busy Control ...................................................................................................................................36
5.6.6 Low Power Mode ............................................................................................................................36
5.6.7 IF10 Interface .................................................................................................................................36
5.7 BINARY .......................................................................................................................................................37
5.7.1 General Description ........................................................................................................................37
5.7.2 Pinout .............................................................................................................................................37
5.7.3 Inhibit Control .................................................................................................................................38
5.7.4 Escrow Control................................................................................................................................38
5.7.5 Busy Control ...................................................................................................................................38
5.7.6 Low Power Mode ............................................................................................................................38
5.7.7 IF9 Interface ...................................................................................................................................38
5.8 PULSE .........................................................................................................................................................39
5.8.1 General Description ........................................................................................................................39
5.8.2 Pinout .............................................................................................................................................39
5.8.3 Inhibit Control .................................................................................................................................39
5.8.4 Escrow Control................................................................................................................................40
5.8.5 Busy Control ...................................................................................................................................40
5.8.6 Low Power Mode ............................................................................................................................40
5.8.7 Credit Hold Function .......................................................................................................................40
5.8.8 IF15 Interface .................................................................................................................................41
6 ROUTINE MAINTENANCE ................................................................................................................. 42
6.1 INTRODUCTION.............................................................................................................................................42
6.2 RECOMMENDED CLEANING INTERVALS .............................................................................................................42
7 FIRST LEVEL SUPPORT ...................................................................................................................... 43
7.1 BEZEL LED FLASH CODES ...............................................................................................................................43
7.2 CONFIGURATION BUTTON FUNCTIONS ..............................................................................................................43
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7.3 CHECKING POWER AND COMMUNICATION CONNECTIONS ....................................................................................43
7.4 PROGRAM CHECK PROCEDURE ........................................................................................................................44
8 SECOND LEVEL SUPPORT ................................................................................................................. 45
8.1 CLEARING A JAM ...........................................................................................................................................45
8.2 CLEANING THE BV20 ....................................................................................................................................46
8.3 CLEARING A CHECKSUM ERROR .......................................................................................................................47
8.4 RE-INITIALISATION OF THE SENSORS ..................................................................................................................48
9 TECHNICAL DATA ............................................................................................................................ 51
9.1 DIMENSIONS ................................................................................................................................................51
9.2 WEIGHT ......................................................................................................................................................51
9.3 ENVIRONMENTAL REQUIREMENTS....................................................................................................................51
9.4 POWER REQUIREMENTS .................................................................................................................................51
9.4.1 Supply Voltages ..............................................................................................................................51
9.4.2 Supply Currents ..............................................................................................................................51
9.4.3 Power Supply Guidance ..................................................................................................................52
9.5 INTERFACE LOGIC LEVELS ................................................................................................................................52
9.6 RELIABILITY DATA .........................................................................................................................................52
9.7 MEDIA REQUIREMENTS..................................................................................................................................52
10 COMPLIANCES AND APPROVALS ...................................................................................................... 53
10.1 EC DECLARATION OF CONFORMITY .............................................................................................................53
11 APPENDIX ....................................................................................................................................... 54
11.1 CABLE DRAWINGS ....................................................................................................................................54
11.2 CONNECTOR SPECIFICATIONS .....................................................................................................................56
11.3 SWITCHING TO PROGRAMMING MODE (SSP) ...............................................................................................56
11.4 FREE FALL CASHBOX ADVICE ......................................................................................................................56
11.5 CCTALK DES ENCRYPTION TRUSTED MODE ................................................................................................56
11.6 ESCROW CONTROL ...................................................................................................................................57
11.6.1 Escrow Timing Diagram.............................................................................................................58
11.7 LOW POWER MODE TIMING DIAGRAM ........................................................................................................59
11.8 FILE NAMING CONVENTION .......................................................................................................................60
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1 DOCUMENT INTRODUCTION
1.1 Related Documents
This document should be read together with the following:
For SSP/eSSP:
Protocol Manual – SSP (GA138) : SSP Interface Protocol Specification for integration
SSP Implementation Guide (GA973) : Information for programmers and integrators
For other third party interface protocols please contact support@innovative-
technology.com.
1.2 Manual Amendments
Rev.
Date
Amendment Details
Issued by
1.0
22/06/2017
First Issue
MC
1.3 Copyright
This manual set is Copyright © Innovative Technology Ltd. 2016. No part of this publication may be reproduced in any form or by any means used to make any derivative such as translation, transformation, or adaptation without permission from Innovative Technology Ltd. The contents of this manual set may be subject to change without prior notice.
1.4 Limited Warranty
Innovative Technology Ltd warrants each of its hardware products to be free from defects in workmanship and materials under normal use and service for a period commencing on the date of purchase from Innovative Technology Ltd or its Authorized Reseller, and extending for the length of time stipulated by Innovative Technology Ltd.
A list of Innovative Technology Ltd offices can be found in every section of this manual set. If the product proves defective within the applicable warranty period, Innovative Technology Ltd will repair or replace the product. Innovative Technology Ltd shall have the sole discretion whether to repair or replace, and any replacement product supplied may be new or reconditioned.
The foregoing warranties and remedies are exclusive and are in lieu of all other warranties, expressed or implied, either in fact or by operation of law, statutory or otherwise, including warranties of merchantability and fitness for a particular purpose.
Innovative Technology Ltd shall not be liable under this warranty if it’s testing and
examination disclose that the alleged defect in the product does not exist or was caused by the customer's or any third person's misuse, neglect, improper installation or testing, unauthorized attempts to repair, or any other cause beyond the range of the intended use. In no event will Innovative Technology Ltd be liable for any
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damages, including loss of profits, cost of cover or other incidental, consequential or indirect damages arising out the installation, maintenance, use, performance, failure or interruption of an Innovative Technology Ltd product, however caused.
1.5 Product Safety Information
Throughout this user manual, we may draw your attention to key safety points that you should be aware of when using or maintaining the product.
These safety points will be highlighted in a box, like this:
Caution!
This is an example text.
This user manual and the information it contains is only applicable to the model stated on the front cover, and must not be used with any other make or model.
1.6 Disclaimer
Innovative Technology Ltd is not responsible for any loss, harm, or damage caused by the installation and use of this product. This does not affect your local statutory rights. If in doubt please contact Innovative Technology for details of any changes.
Innovative Technology Ltd has a policy of continual product improvement. As a result the products supplied may vary from the specification described here.
Innovative Technology Ltd does not accept liability for any errors or omissions contained within this document. Innovative Technology Ltd shall not incur any penalties arising out of the adherence to, interpretation of, or reliance on, this standard.
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Safety Notice! Read before using this product!
Safety Notice - Warning. Ensure power is removed before allowing access to the inside of this product.
Ensure any static build up is discharged before allowing access to any part of this product or media contained. Always earth this product/base plate in accordance with the manual.
For use only in or with complete equipment where the acceptability of the combination is determined by UL LLC. When installed in an end-product, consideration must be given to the following:
The power supply terminals and/or connectors are: Not investigated for field wiring
The investigated Pollution Degree is: 2
The following end-product enclosures are required: Mechanical, Fire
Sicherheitshinweis Warnung: Es muss sichergestellt werden, dass das Gerät von der Versorgungsspannung getrennt wird, bevor ein Eingriff in das Innere des Gerätes erfolgt. Es muss sichergestellt werden, dass jegliche statische Aufladung des Gerätes entladen wird, bevor auf das Gerät oder auf innerhalb des Gerätes befindliche Objekte zugegriffen wird. Die Erdung des Gerätes muss immer gemäß Handbuch erfolgen.
Nur für die Verwendung in oder mit kompletter Ausstattung, dessen Eignung und Kombination von der UL LLC ermittelt wurde. Bei der Installation in einem Endproduckt, muss folgendes berücksichtigt werden:
Die Spannungsversorgungsklemmen und/oder Verbinder sind: Feldverkabelung wurde nicht untersucht
Der untersuchte Verschmutzungsgrad ist: 2
Folgende Anforderungen an die Gehäuse des Endproduktes sind gefordert: Mechanisch, Feuer
Aviso de seguridad: Asegúrese de que la alimentación está desconectada y de que toda la energía estática es descargada antes de manipular este producto. Conecte a tierra la chapa base de la manera que se indica en el manual.
Solo para uso con dispositivos con los cuales la compatibilidad ha sido certificada por UL LLC. Tras su instalación en producto acabado, tener en cuenta lo siguiente:
Los conectores y terminales de alimentación son: No se ha investigado/especificado cableado externo.
El grado de contaminación determinado es: 2
Los siguientes manuales/certificados de producto final son requeridos: Mecánico, Fuego
Avis de sécurité : Assurez-vous que l'alimentation est coupée et que toute l'énergie statique est déchargé avant de manipuler ce produit. Connecter à la terre, la plaque de base à la manière indiquée dans le manuel.
A utiliser Seulement avec les dispositifs dont la compatibilité a été certifiée par UL LLC. Après son installation dans le produit fini, prendre en considération ce qui suit:-
Les connecteurs et les bornes d'alimentation sont : cela n’a pas été étudié/spécifié câblage externe.
Le degré de contamination déterminé est: 2
Les manuels suivants / les certificats du produit final sont nécessaires : mécanique, incendie
Bezpečnostní upozornění. Před manipulací uvnitř tohoto produktu se ujistěte, že je produkt odpojen od zdroje elektrického napětí. Ujistěte se, že jakýkoliv elektrostatický náboj byl vybit před manipulací s jakoukoliv částí tohoto produktu nebo obsaženým médiem. Vždy uzemněte tento produkt/základovou
desku v souladu s návodem.
Pouze pro použití v nebo s kompletním vybavením, kde je přijatelnost kombinace určena UL LLC. Při instalaci v konečném produktu je třeba zvážit nasledující:
Napájecí svorky a/nebo konektory: Nejsou sledované pro externí kabeláž
Sledovaný stupeň znečištění je: 2
Následující krytí konečného produktu jsou požadované: Mechanické, Protipožární
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2 PRODUCT INTRODUCTION
2.1 General Description
The BV20 is a compact, light-weight bill acceptor ideal for amusement and low value vending applications. Proven field reliability, quick transactions and easy maintenance make the unit future proof.
Exceptional value, the BV20 allows a bill acceptor to be installed for the same price as a coin mech.
2.2 Key Features
Compact bill acceptor
Simple design
Exceptional value
Ideal for amusement, kiddie rides & jukebox applications
2.3 Typical Applications
Gaming
Amusement
Vending
2.4 Component Overview
Lozenge
release catch
Expansion port
clips
Note path
output
Bezel
Configuration
function button
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2.4.1 Module Options
ITL Part Number
Description
Details
BV20110VPSU
BV20 110V Power Supply Unit
http://innovative-technology.com/shop/accessories/bv20­110v-power-supply-unit-detail
2.5 Bezel Options
The BV20 validator is available with either 66mm or 72mm Bezel. Datasets can only be downloaded to a BV20 with the correct bezel width for the currency. For example a USD dataset can only be downloaded to a 66mm BV20. A Euro dataset can only be downloaded to a 72mm BV20.
2.6 Cashbox Options
The BV20 validator is designed to have no built-in cashbox. On BV20 installation, banknotes being validated by BV20 validator must be able to be transported behind the validator with no obstructions. Banknotes accepted must be able to free fall until the banknote is not in any contact with BV20 validator body.
Interface Connector
16-Pin Connector
External
Hardware Clip
Hardware Clip
Configuration
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3 MECHANICAL INSTALLATION
3.1 Compatibility
3.1.1 Hardware Compatibility
3.1.1.1 Machine Mounting
Assuming the suitable bezel (and cashbox) type has been ordered the BV20 can be used as fitting replacement for the following products:
BV20
The BV20 may not be used as fitting replacement for the following products:
BV50
BV100
NV150
NV9 USB
NV10 USB
NV200
Innovative Technology Ltd. has a policy of continuous product improvement. Due to design changes older model or product bezels (and cashboxes) may not be compatible with the BV20. However, new product deliveries always include a bezel (and cashbox) that must be used.
Caution!
Only use bezel (and cashbox) delivered with the product!
3.1.1.2 Machine Interfacing
By design the BV20 is pin to pin compatible with the suitable fitting replacement products listed above. No changes to existing machine harnessing are required.
3.1.1.3 Power Supply
It is vital that the BV20 is connected to a power supply being able to provide the required power environment. A weak power supply causes malfunctioning of the BV20 such like note rejects or missing credits. If the BV20 is used as a fitting replacement for an older model or product we recommend to check the power supply specifications of the machine. The power supply of the machine might be designed for the older model or product but not suitable for the BV20. The BV20 might have higher power consumption. Refer to 9.4 for full power requirement details of the BV20.
Caution!
A weak power supply causes malfunctioning!
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3.1.2 Software Compatibility
3.1.2.1 Interface Protocols
When using the BV20 as a fitting replacement for an older model or product some events such like credits may be given earlier. This is due to improved firmware routines and faster motors being used. This may cause missing events such like credits in those host machines where timeouts are defined for the older model or product. Please contact the machine manufacturer for full compatibility of the BV20.
Caution!
Timing issues may cause missing events such like credits!
3.1.2.2 Re-programming
For re-programming the BV20 always use the latest version of Validator Manager available for download on our website. Older versions may not support the BV20. For further details on Re-programming the BV20 refer to 4.2.
Caution!
Older versions of Validator Manager may not support the BV20!
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3.2 Entrance Width settings
BV20 has 66mm and 72mm bezel width built-in settings available. The two bezels width are not interchangeable.
3.2.1 66mm width setting
1. Check imprinted sizing on top right corner “66mm”
2. Use 66mm dataset file
File can be downloaded from ITL
website/ downloading section
3.2.2 72-mm width setting
1. Check imprinted sizing on top
right corner “72 mm”
2. Use 72mm dataset file
File can be downloaded from ITL
website/ downloading section
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3.3 Cashbox/Baseplate Mounting
3.3.1 Cashbox/Baseplate Fitting
BV20 is designed to have no built-in cashboxes. Sufficient space behind BV20 must be kept free at all time for accepted banknotes and banknote in escrow to free fall during operation.
3.4 Machine Mounting
3.4.1 BV20 Position
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3.4.2 Earth Bonding
It is very important that the BV20 is properly bonded to earth as described in 3.4.1. Lack of proper bonding can cause communication issues and other failures.
Caution!
Lack of proper earth bonding causes failures!
3.4.3 Screw Specifications
The scope of delivery does not include screws for machine mounting. See table below for screw specification reference.
Head Diameter
Head Height
Bolt Diameter
Bolt Length
Type
Min
Max
Min
Max
Min
Max
Min
Max
Flat Head
7 - 2 - 2.5
4.5
15
42
Pan Head
7 - 2 - 2.5
4.5
15
42
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4 SOFTWARE INSTALLATION AND CONFIGURATION
4.1 Introduction
The BV20 leaves the factory pre-programmed with the latest dataset and firmware files. However, it is important to ensure your device is kept up to date with the latest dataset and firmware. This section will give you a brief overview of the various update possibilities with the BV20. For detailed instructions please refer to the relevant manual package supplied with the software or contact support@innovative-
technology.com.
4.2 Software Downloads
All software from Innovative Technology Ltd is free of charge and can be downloaded from the website www.innovative-technology.com/support/secure-
download once registered and logged in. If you are not registered, please create an
account via the Create an account form. A confirmation email will be sent to the registered email address once all contact details have been successfully submitted.
4.3 Drivers
The ITL drivers allow you to connect any of our validators to a compatible Windows device. If you are connecting via an IF17 then you will not need to follow this process as they are signed Microsoft Drivers and should install automatically. If this
isn’t the case or your computer is disconnected from the network, there is a
standalone package included within the driver downloads.
4.4 Dataset/Firmware Programming
4.4.1 Validator Manager
4.4.1.1 General Description
Validator Manager is a utility which allows the user to reprogram any of ITL’s validators, hoppers as well as coin and note recycler. Please note that admin rights are required during installation. The validator must be in SSP for the Validator Manager to detect the device.
4.4.1.2 System Requirements
Windows XP SP3 or above
.Net Framework 4
256mb ram
50mb hard disk free
Connected BV20 with active com port
Caution!
We have seen instances where one of the dll’s (itdata1.dll) used in Validator Manager are flagged as a Trojan, this is a false positive and if this happens you will need to add a rule to your antivirus to allow the file to run.
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4.4.1.3 Hardware Setup
Connect the power supply cable to the DA2/IF17. Connect the USB cable to the
DA2/IF17 and to your computer or laptop. Connect the CN00174 cable to Validator
and DA2/IF17.
4.4.1.4 Switching to Programming Mode (SSP)
Before programming via the Validator Manager software tool, the BV20 needs to be switched to its programming mode (SSP interface). Please refer to 11.3 for the procedure for doing this.
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4.4.1.5 Programming the device
Once you have switched the unit into SSP, open Validator Manager and click detect devices. This will scan all active com ports for a unit, if your BV20 fails to connect please ensure the correct drivers are installed and the unit is in SSP.
By selecting the Program tab, you can reprogram the BV20. To begin the upload, click open file, then browse to the file location (usually Downloads) before clicking OK.
Once the file has been selected its information will be populated and the Program
device tab will become active. Finally hit ‘Program Device’, the unit’s bezel will now
begin to flash signaling the update has begun.
Caution!
Interrupting the download process can result in the unit entering a non-functional state, once the process has started it cannot be halted.
When completed the unit will restart and a pop up box will appear saying Device Programming Complete.
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4.4.2 DA3
4.4.2.1 General Description
The DA3 is a hand-held validator programming system that enables the user to re­program ITL banknote validators in the field, without the use of a PC. Dataset and firmware files for different validator models can be stored on the DA3. Once programmed the user can update or override existing software as well as test the functionality of the validator, away from the host machine.
4.4.2.2 System Requirements
Windows XP SP3 or above
.Net Framework 4
256mb ram
50mb hard disk free
Connected DA3 with active com port
Data Flash Card (PA01121)
optional
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4.4.2.3 Re-programming via DA3
1. Open Device Programming System and add the files you will use.
Set “Match” update mode if you want to update current BV20 dataset after comparing datasets or “override” update mode, which will reprogram unit
with chosen file and interface not depending on what is downloaded at the moment:
2. Drag and drop dataset for updating I left part of programming and press
“update files”:
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3. Connect BV20 to DA3 VALIDATOT port. Connect computer/ host machine to DA3 HOST MACHINE port:
4. Using small button choose MATCH DOWNLOAD or OVERRIDE DOWNLOAD depending on requirements, then press big button and downloading process will begin.
After, the BV20 restart and DA3 button become green colour meaning successful reprogramming.
The table below shows an explanation of error codes displayed on the Mode
Indicator LED’s if the center RUN button changes colour to red. The flash code is
shown by a long flash then a number of short flashes:
Cause of faiure (number of short flashes)
Cause of failure
2
No validator connection found
3
No valid download files found
4
Download fail
5
Memory card fail
All the details of DA3 using could be found in ITL Software Manual.
4.4.3 Remote Updates
The BV20 validator supports remote updating.
For SSP protocol, the procedure of updating is described in Section 10 of SSP Implementation Guide (GA973).
For remote updating in ccTalk, please contact support@innovative-technology.com
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Caution!
This option is only available for SSP and ccTalk protocols
4.4.4 Configuration Card
4.4.4.1 General Description
Configuration Card allows user to change configuration options/ protocol parameters without PC or DA3.
4.4.4.2 Re-programming via Configuration Card
Following the instruction of Configuration Card. Manually print and cut off Configuration card (depending on bezel width 66 or 72mm). Power on the BV20 and wait unit the BV20 idles. Press the BV20 configuration button once and enter filled configuration card to validator for changing options/ protocol.
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5 PROTOCOLS AND INTERFACING
5.1 Introduction
The BV20 supports standard industry protocols. Interfaces that are not listed may be available upon request. For any queries regarding interfaces that are not listed please contact support@innovative-technology.com.
Caution!
The use of an encrypted protocol (preferable eSSP) is strongly recommended to achieve the highest security!
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5.2 SSP and eSSP
5.2.1 General Description
Smiley® Secure Protocol (SSP) and Encrypted Smiley® Secure Protocol (eSSP) are field proven secure interfaces specifically designed by Innovative Technology Ltd. to address the problems by cash handling systems in gaming machines. Problems such as acceptor swapping, re-programming acceptors and line tapping are all addressed. This interface is recommended for all new designs. Innovative Technology Ltd. provides full SDK packages upon request including Interface Specification, Implementation Guide as well as source code examples for C++, C#.NET and Linux. Please contact support@innovative-technology.com for further information.
5.2.2 Pin Assignments
Pin
Name
Type
Description
1
Vend 1
Output
Serial Data Out (Tx)
2
Vend 2
Output
DA3 Data Logging
3
Vend 3
Output
Not Used
4
Vend 4
Output
Not Used
5
Inhibit 1
Input
Serial Data In (Rx)
6
Inhibit 2
Input
Not Used
7
Inhibit 3
Input
Not Used
8
Inhibit 4
Input
Not Used
9
Busy
Output
Not Used
10
Escrow
Input
Not Used
11
Factory Use Only
Factory Use Only
12
Factory Use Only
Factory Use Only
13
Factory Use Only
Factory Use Only
14
Factory Use Only
Do not connect
15
+ Vin
Power
+12VDC Supply
16
0V
Power
0V Supply (GND)
Caution!
+12VDC and 0V (GND) must always be connected.
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5.2.3 Setup Examples
The drawings below highlights how to connect the BV20 to an SSP or eSSP host machine using available cables and interfaces from Innovative Technology Ltd. For cable drawings please refer to Appendix XYZ.
IF17 or other additional Setup Drawing 2 here
Type
ITL Part Number
Description
Details
Cable
CN00174
Ribbon Cable
http://www.innovative­technology.com/shop/cables/dual-essp­interface-for-smart-hopper-a-smart­payout-detail
Cable
CN00345
DA3 / IF17 / IF18 Power Cable
http://innovative­technology.com/shop/cables/da3-if17­if18-power-cable-detail
Cable
CN00214
USB Type A to B
http://www.innovative­technology.com/shop/cables/usb-a-to-b­cable-assembly-detail
Interface
IF17
TTL to USB Converter
http://www.innovative­technology.com/shop/accessories/if17­interface-converter-detail
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5.3 ccTalk
®
5.3.1 General Description
ccTalk® is a serial communications protocol designed by Money Controls to allow 3­wire interfacing between a host and cash handling peripherals. Please contact
support@innovative-technology.com for further information.
Caution!
Innovative Technology Ltd. provides full SDK packages including Interface Specification, Implementation Guide as well as source code examples for SSP respectively eSSP only!
5.3.2 Pin Assignments
Pin
Name
Type
Description
1
Vend 1
Output
Serial Data (link to Pin 5)
2
Vend 2
Output
DA3 Data Logging
3
Vend 3
Output
Not Used
4
Vend 4
Output
Not Used
5
Inhibit 1
Input
Serial Data (link to Pin 1)
6
Inhibit 2
Input
Not Used
7
Inhibit 3
Input
Not Used
8
Inhibit 4
Input
Not Used
9
Busy
Output
Not Used
10
Escrow
Input
Not Used
11
Factory Use Only
Not Used
12
Factory Use Only
Not Used
13
Factory Use Only
Not Used
14
Factory Use Only
Do not connect
15
+ Vin
Power
+12VDC Supply
16
0V
Power
0V Supply (GND)
Caution!
1
2
16
15
5
Data
+12
V V
0
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+12VDC and 0V (GND) must always be connected, also when using USB connections.
5.3.3 ccTalk
®
DES Encryption
When using ccTalk® DES encryption, the BV20 and host machine must exchange a secret key which forms the basis of the communication encryption. This exchange is performed in a Trusted Mode maintaining security. The Trusted Mode can only be entered by a physical access to the BV20. Please refer to Appendix XYZ for details.
5.3.4 Setup Example Drawing/s
Same scheme could be used as for SSP connection:
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5.4 SIO and SI2
5.4.1 General Description
SIO (Serial Input/Output) is a very basic and low level serial communication interface. Messages are not echoed back. SIO uses 300 baud whereby SI2 uses 9600 baud. Please contact support@innovative-technology.com for SIO Interface Specification or other details.
Caution!
SIO and SI2 are outmoded and not recommended for new developments!
Caution!
Innovative Technology Ltd. provides full SDK packages including Interface Specification, Implementation Guide as well as source code examples for SSP respectively eSSP only!
There are 4 different combinations of SIO available:
-SIO 300 Baud
-SIO 300 Baud (Disabled at Start up) – A software enable must be sent to enable the validator.
-SIO 9600 Baud
-SIO 9600 Baud (Disabled at Start up) – A software enable must be sent to enable the validator.
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The Baud rate of communications can be set at either 300 or 9600 using the Validator Manager Software. The data format according to the Baud rate used is shown in below table
Baud Rate
Start Bits
Data Bits
Stop Bits
300 1 8
2
9600 1 8
1
BV20 will receive and transmit the following event codes.
Recognised
Receive Codes to
BV20
Transmitted Codes from BV20
MESSAGE
DECIMAL
VALUE
MESSAGE
DECIMAL
VALUE
Inhibit C1
131
Note Accept on C1
1
Inhibit C2
132
Note Accept on C2
2
Inhibit C3
133
Note Accept on C3
3
Inhibit C4
134
Note Accept on C4
4
Inhibit C5
135
Note Accept on C5
5
Inhibit C6
136
Note Accept on C6
6
Inhibit C7
137
Note Accept on C7
7
Inhibit C8
138
Note Accept on C8
8
Inhibit C9
139
Note Accept on C9
9
Inhibit C10
140
Note Accept on C10
10
Inhibit C11
141
Note Accept on C11
11
Inhibit C12
142
Note Accept on C12
12
Inhibit C13
143
Note Accept on C13
13
Inhibit C14
144
Note Accept on C14
14
Inhibit C15
145
Note Accept on C15
15
Inhibit C16
146
Note Accept on C16
16
Un-inhibit C1
151
Note Not Recognised
20
Un-inhibit C2
152
Mechanism running slow
30
Un-inhibit C3
153
Strimming attempted
40
Un-inhibit C4
154
Note Rejected (fraud channel)
50
Un-inhibit C5
155
STACKER Full or Jammed
60
Un-inhibit C6
156
Abort During Escrow
70
Un-inhibit C7
157
Note may have been taken to clear jam
80
Un-inhibit C8
158
Validator Busy
120
Un-inhibit C9
159
Validator Not Busy
121
Un-inhibit C10
160
Command Error
255
Un-inhibit C11
161
Un-inhibit C12
162
Un-inhibit C13
163
Un-inhibit C14
164
Un-inhibit C15
165
Un-inhibit C16
166
Enable serial
escrow mode
170
Disable serial
escrow mode
171
Accept escrow
172
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Reject escrow
173
Status
182
Enable all
184
Disable all
185
Disable escrow timeout
190
Enable escrow timeout
191
Example transactions are shown below (see table 13):
Event
Validator
Decimal
Value
Host
Note entered into validator
Validator Busy
120
Note accepted channel 2
Validator Ready
121
Accept on channel 2
2
Note entered into validator
Validator Busy
120
Note not recognised
Validator Ready
121
Note not recognised
20
Validator has returned note
Validator Ready
121
Software Inhibit Channel 4
Inhibit C4
134
Inhibit C4
Channel 4 inhibited
134
Software Enable Channel 4
Uninhibit C4
154
Uninhibit C4
Channel 4 inhibited
154
Status Report
182
Status Request
Status Requested
182
3 byte status message
Inhibit status Channels 1-8
Byte 1
Inhibit status Channels 9-16
Byte 2
Escrow On (=1) / Off (=0)
Byte 3
Turn on Escrow Mode
170
Enable Escrow
Mode
Escrow Mode Enabled
170
Note accept in Escrow Mode
Note entered into validator
Validator Busy
120
Note Accepted Channel 2
Validator Ready
121
Accept on Channel 2
2
172
Accept Note in
Escrow
Accept Escrow
172
Accept on Channel 2
2
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5.4.2 Pinout
Pin
Name
Type
Description
1
Vend 1
Output
Serial Data Out (Tx)
2
Vend 2
Output
Not Used
3
Vend 3
Output
Not Used
4
Vend 4
Output
Not Used
5
Inhibit 1
Input
Serial Data In (Rx)
6
Inhibit 2
Input
Not Used
7
Inhibit 3
Input
Not Used
8
Inhibit 4
Input
Not Used
9
Busy
Output
Not Used
10
Escrow
Input
Not Used
11
Factory Use Only
Do not connect
12
Factory Use Only
Do not connect
13
Factory Use Only
Do not connect
14
Factory Use Only
Do not connect
15
+ Vin
Power
+12VDC Supply
16
0V
Power
0V Supply (GND)
1
2 16
15
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5.5 MDB
5.5.1 General Description
MDB (Multi-Drop Bus) is used in the vending industry and is now an open standard in the NAMA (National Automatic Merchandising Association) so that all vending and peripheral equipment communicates identically. MDB uses a master-slave model where the VMC (Vending Mechanism Controller) is the master that can communicate with up to 32 slaves (e.g. banknote validator or coin acceptor).
Note:
•Please refer to the Multi-Drop Bus specification for the suggested current drive circuits available.
•The BV20 supports the MDB Protocol version 1, level 1.
•For detailed information and full protocol specification refer to
www.vending.org
•MDB address: - 0x30
The BV20 Bank Note Validators have a unique address – 00110XXX binary (30H). The VMC polls the bus to detect presence of the BV20 Validator or get information on the current status of the validator.
The validators will respond when asked for activity with an acknowledgment, a negative acknowledgment or a specific reply, depending on its current status. Bus crashes are avoided as the validators respond to being polled only by the VMC.
The international country code must be set for the country in which the validators will be operating. This is either the international telephone code for that country, or the country code taken from ISO4217. The code is represented as two bytes. The initial digit signifies the source of the code. 0 signifies the telephone code is used, 1 signifies ISO4217 has been used. For the USA the country code is 00 01, or 18 40 For Great Britain the code is 00 44, or 18 26.
The scaling factor must also be specified for each validator. All accepted note values must be evenly divisible by this number.
•This number would be set to 100 (Hex 64) for the Euro or Great Britain.
•The number would be set to 1000 (Hex 03E8) for Columbia.
•The number of decimal places must also be programmed for each validator
•The number would be set to 2 for Euro or USA
•The number would be set to 3 for Columbia
Adopting the numbers above:
•£5 would be displayed as 5.00
•£10 would be displayed as 10.00
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•$1 would be displayed as 1.00
•1K Columbia would be displayed as 1.000
Please contact support@innovative-technology.com for further information.
Caution!
Innovative Technology Ltd. provides full SDK packages including Interface Specification, Implementation Guide as well as source code examples for SSP respectively eSSP only!
5.5.2 Pinout
Pin
Name
Type
Description
1
Vend 1
Output
Serial Data Out (Tx)
2
Vend 2
Output
Not Used
3
Vend 3
Output
Not Used
4
Vend 4
Output
Not Used
5
Inhibit 1
Input
Serial Data In (Rx)
6
Inhibit 2
Input
Not Used
7
Inhibit 3
Input
Not Used
8
Inhibit 4
Input
Not Used
9
Busy
Output
Not Used
10
Escrow
Input
Not Used
11
Factory Use Only
Do not connect
12
Factory Use Only
Do not connect
13
Factory Use Only
Do not connect
14
Factory Use Only
Do not connect
15
+ Vin
Power
+12VDC Supply
16
0V
Power
0V Supply (GND)
1
2
16
15
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5.5.3 IF5 Interface
To use the MDB mode, an IF5 interface box can be used.
5.5.4 MDB PSU
Caution!
An IF5 cannot be used with BV20110VPSU
BV20 can be used with MDB PSU, which allows to use validator directly with MDB applications:
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5.5.5 Setup Example Drawing/s
For MDB PSU mounting:
1. Clip MDB PSU onto BV20’s External Hardware Clip
16-Pin
Connector
Socket
External
Hardware Clip
External
Hardware Clip
Configuration
button
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2. Plug MDB PSU 20 pin connector into BV20’s 16 pin connector socket:
BV20 MDB PSU now installed.
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5.6 Parallel
5.6.1 General Description
Parallel is a 4-way output interface. The first 4 channels have their own individual output which means that only a maximum of 4 channels can be used. If a note is recognised the relevant Vend line is set to low for a period of 100 ± 3ms. Pulses outside these limits should be rejected as a precaution against false triggering.
Caution!
Parallel is an unsecure interface and should not be used for new developments!
5.6.2 Pinout
Pin
Name
Type
Description
1
Vend 1
Output
Credit Output Channel 1
2
Vend 2
Output
Credit Output Channel 2
3
Vend 3
Output
Credit Output Channel 3
4
Vend 4
Output
Credit Output Channel 4
5
Inhibit 1
Input
Inhibit Input Channel 1 by holding HIGH, hold LOW to enable
6
Inhibit 2
Input
Inhibit Input Channel 2 by holding HIGH, hold LOW to enable
7
Inhibit 3
Input
Inhibit Input Channel 3 by holding HIGH, hold LOW to enable
8
Inhibit 4
Input
Inhibit Input Channel 4 by holding HIGH, hold LOW to enable
9
Busy
Output
Output Busy Signal. Active LOW when BV20 is in transporting, reading or stacking a note
10
Escrow
Input
Input Escrow Control. Enable escrow function by holding LOW
11
Factory Use Only
Do not connect
12
Factory Use Only
Do not connect
13
Factory Use Only
Do not connect
14
Factory Use Only
Do not connect
15
+ Vin
Power
+12VDC Supply
16
0V
Power
0V Supply (GND)
5.6.3 Inhibit Control
The Inhibits can be used to either enable or disable the acceptance of those banknotes programmed on channels 1, 2, 3 and 4. The Inhibits are internally held high and must be set to low (GND) to enable banknote acceptance. If no Inhibit is set to low (GND) the Master Inhibit is set and the BV20 is disabled.
16
15
1
2
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5.6.4 Escrow Control
The BV20 has a single note escrow facility. This allows the BV20 to hold onto the note once validated, and then only stack the note into a cashbox when the host machine confirms that the Vend operation has been completed. Hold pin 10 LOW to enable the single note escrow function. If the host machine aborts the transaction by setting the corresponding inhibit input HIGH, the note is returned immediately.
The host machine can force the return of the 30 second time-out. Setting HIGH on all the inhibits causes all notes rejected. In the event of a note being forcibly removed from the BV20 bezel during the 30-second interval, the BV20 will go out of service for 45 seconds.
Please refer to 11.8 for timing diagram and further details.
5.6.5 Busy Control
This is a general-purpose busy signal. It is active low (pin 9) while the BV20 is in operation.
5.6.6 Low Power Mode
The Low Power Mode can be used to reduce the power consumption of the BV20 when idle. When the Low Power Mode option is set, the BV20 goes into the Low Power Mode after about 6 seconds after the BV20 is powered up and remains in this state until a note is entered. Following a note insertion, the BV20 returns to Low Power Mode approximately 1 second after a credit is given or note is rejected. Please refer to 11.9 for timing diagram and further details.
Caution!
In Low Power Mode the front sensor is checked every second which can lead to a delay in accepting the note when it is presented!
Caution!
Configuration button functions are only available during power up before the BV20 goes into Low Power Mode!
5.6.7 IF10 Interface
The IF10 is an interface that allows serial SSP to be used in machines without the need of updating the machine software. The IF10 is connected between the BV20 and the host machine. The IF10 communicates with the BV20 in serial SSP which gives more security along the length of the cable. The IF10 should be mounted close to the host machine control board where the IF10 converts to the parallel connection.
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5.7 Binary
5.7.1 General Description
In the event that the machine needs more than 4 denominations to be recognised but the host machine cannot take advantage of the serial communication method then the BV20 can be set to give a binary pattern output on the four parallel output pins. If the BV20 is set to Binary it will issue the vend signals as a binary pattern on the parallel outputs for 100 ± 3 ms. In this way a maximum of 15 different notes can be accepted and 4 notes individually inhibited.
The four channels have their own individual outputs. If a note is recognised the binary representation of the channel number will be pulled low for 100 ± 3 ms. Pulses outside these limits will be rejected as a precaution against false triggering due to noise.
For example, if a note programmed on channel 3 is credited vend 1 (20 = 1 decimal) and vend 2 (21 = 2 decimal) will be active low for 100 ± 3 ms.
Caution!
Binary is an unsecure interface and should not be used for new developments!
5.7.2 Pinout
Pin
Name
Type
Description
1
Vend 1
Output
Credit Output binary 20 = 1 decimal
2
Vend 2
Output
Credit Output binary 21 = 2 decimal
3
Vend 3
Output
Credit Output binary 22 = 4 decimal
4
Vend 4
Output
Credit Output binary 23 = 8 decimal
5
Inhibit 1
Input
Inhibit Input Channel 1
6
Inhibit 2
Input
Inhibit Input Channel 2
7
Inhibit 3
Input
Inhibit Input Channel 3
8
Inhibit 4
Input
Inhibit Input Channel 4
9
Busy
Output
Output Busy Signal
10
Escrow
Input
Input Escrow Control
11
USB +
Data
Not Used
12
USB -
Data
Not Used
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13
USB Vcc
Power
Not Used
14
Factory Use Only
Do not connect
15
+ Vin
Power
+12VDC Supply
16
0V
Power
0V Supply (GND)
5.7.3 Inhibit Control
The Inhibits can be used to either enable or disable the acceptance of those banknotes programmed on channels 1, 2, 3 and 4. The Inhibits are internally held high and must be set to low (GND) to enable banknote acceptance. If no Inhibit is set to low (GND) the Master Inhibit is set and the BV20 is disabled.
5.7.4 Escrow Control
The BV20 has a single note escrow facility. This allows the BV20 to hold onto the note once validated, and then only stack the note into a cashbox when the host machine confirms that the Vend operation has been completed. Please refer to 11.8 for further details.
5.7.5 Busy Control
5.7.6 Low Power Mode
The Low Power Mode can be used to reduce the power consumption of the BV20 when idle. When the Low Power Mode option is set, the BV20 goes into the Low Power Mode after about 6 seconds after the BV20 is powered up and remains in this state until a note is entered. Following a note insertion, the BV20 returns to Low Power Mode approximately 1 second after a credit is given or note is rejected. Please refer to 11.9 for timing diagram and further details.
Caution!
In Low Power Mode the front sensor is checked every second which can lead to a delay in accepting the note when it is presented!
Caution!
Configuration button functions are only available during power up before the [Product Name] goes into Low Power Mode!
5.7.7 IF9 Interface
The IF9 is an interface that allows serial SSP to be used in machines without the need of updating the machine software. The IF9 is connected between the BV20 and
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the host machine. The IF9 communicates with the BV20 in serial SSP which gives more security along the length of the cable. The IF9 should be mounted close to the host machine control board where the IF9 converts to the binary connection.
5.8 Pulse
5.8.1 General Description
Pulse can be used for the acceptance of up to 16 channels. When a note is recognised vend 1 (pin 1) will pulse a pre-set number of times. The amount of pulses as well as the high/low pulse ratio is configurable. For programming and configuration please refer to Section 4 of this User Manual.
Caution!
Pulse is an unsecure interface and should not be used for new developments!
5.8.2 Pinout
Pin
Name
Type
Description
1
Vend 1
Output
Credit Output Pulse Stream
2
Vend 2
Output
Not Used
3
Vend 3
Output
Not Used
4
Vend 4
Output
Not Used
5
Inhibit 1
Input
Inhibit Input Channel 1
6
Inhibit 2
Input
Inhibit Input Channel 2
7
Inhibit 3
Input
Inhibit Input Channel 3
8
Inhibit 4
Input
Inhibit Input Channel 4
9
Busy
Output
Output Busy Signal
10
Escrow
Input
Input Escrow Control
11
USB +
Data
Not Used
12
USB -
Data
Not Used
13
USB Vcc
Power
Not Used
14
Factory Use Only
Do not connect
15
+ Vin
Power
+12VDC Supply
16
0V
Power
0V Supply (GND)
5.8.3 Inhibit Control
The Inhibits can be used to either enable or disable the acceptance of those banknotes programmed on channels 1, 2, 3 and 4. The Inhibits are internally held high and must be set to low (GND) to enable banknote acceptance. If no Inhibit is set to low (GND) the Master Inhibit is set and the [Product Name] is disabled.
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5.8.4 Escrow Control
The [Product Name] has a single note escrow facility. This allows the [Product Name] to hold onto the note once validated, and then only stack the note into a cashbox when the host machine confirms that the Vend operation has been completed. Please refer to 11.8 for further details.
5.8.5 Busy Control
5.8.6 Low Power Mode
The Low Power Mode can be used to reduce the power consumption of the BV20 when idle. When the Low Power Mode option is set, the BV20 goes into the Low Power Mode after about 6 seconds after the BV20 is powered up and remains in this state until a note is entered. Following a note insertion, the BV20 returns to Low Power Mode approximately 1 second after a credit is given or note is rejected. Please refer to 11.9 for timing diagram and further details.
Caution!
In Low Power Mode the front sensor is checked every second which can lead to a delay in accepting the note when it is presented!
Caution!
Configuration button functions are only available during power up before the [Product Name] goes into Low Power Mode!
5.8.7 Credit Hold Function
If this function is enabled the BV20 will take the notes as normal but then wait until the escrow line is toggled low/high before it will then give out the pulses per denomination as set. After the pulses have been given, the BV20 will wait for another low/high toggle until the full value of credit pulses are given.
For example, with a setting of 2 pulses per dollar, a five dollar bill will give 2 pulses 5 times.
A Typical use of this option would be for a Pool table with a game price of $1. You could insert a $5 note and press a button that toggles the escrow line and releases the pool balls, this would then allow you to play the first game. The Validator holds onto the remaining credits until the game has finished and the button is pressed again allowing the next game to begin, this continues until all the credits have been used.
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The busy line remains low throughout the whole process and the BV20 remains inhibited until all pulses are given.
5.8.8 IF15 Interface
The IF15 is an interface that allows serial SSP to be used in machines without the need of updating the machine software. The IF15 is connected between the BV20 and the host machine. The IF15 communicates with the BV20 in serial SSP which gives more security along the length of the cable. The IF15 should be mounted close to the host machine control board where the IF15 converts to the pulse connection.
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6 ROUTINE MAINTENANCE
6.1 Introduction
The BV20 has been designed to minimise any performance variation over time. Much of this is achieved by careful hardware and software design. However, depending upon the environment the BV20 may at some time require cleaning, belt changing or note path clearing.
6.2 Recommended Cleaning Intervals
Innovative Technology Ltd recommends to clean the optical lenses every month or as required. Dirt, dust or other residue leads to bad note acceptance and other performance degradation. Please refer to 8.8 for comprehensive cleaning instructions.
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7 FIRST LEVEL SUPPORT
7.1 Bezel LED Flash Codes
The Bezel LED’s are used to indicate a variety of status signals as described below.
Number of
long flashes
Number of short flashes
1 2 3
4
1
Note Path Jam
Unit not initialized*
Sensor covered
2
3
Firmware
Checksum
Interface
Checksum
EEPROM
Checksum
Dataset
Checksum
4
PSU is too low
PSU is too high
*- refer to section 8.4 for unit initializing.
7.2 Configuration Button Functions
The BV20 has Configuration Button, which allows to perform several functions:
Configuration Button
Power Status
Function
Press and Hold (>2 secs)
Powered ON
Sets BV20 to Programming
Mode (SSP protocol)
Press Once (<1 sec)
Powered ON
Enables Configuration Card
Programming Mode
Press Twice (within half a
second)
Powered ON
Current Setting Indicator
Press and hold as power is
applied
Powered OFF/ON
Resets ccTalk key to Default
setting
7.3 Checking Power and Communication Connections
1. Connect BV20 via TTL-USB adapters, either IF-17 or DA2 should be used. ITL provides principal electrical scheme of IF-17 adapter, please contact
support@innovative-technology.co.uk for details.
2. Power supply parameters details are described in Section 10.4. See also Bezel LED flash codes to identify any validator's errors in section 7.1.
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7.4 Program Check Procedure
To check settings on a programmed unit:
1. Power on unit.
2. Click red configuration button on unit twice.
3. Monitor bezel led and check flash codes:
For example:
A Pulse interface with 50ms high, 100ms low, 2 pulse per dollar will flash 2,5,10,2
A SSP interface will only ever flash once
A ccTalk interface with 16 bit checksum, no encryption will flash 6,1
A ccTalk interface with 8 bit checksum, no encryption will flash 6,1,2
A Binary interface will flash 8,1
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8 SECOND LEVEL SUPPORT
8.1 Clearing a Jam
1. Press the Lozenge Release Catch and softly pull open bezel
2. Carefully pull the banknote from behind BV20 until it has come from validator head.
3. Inspect the visible parts of validator of any banknote remains. Then close bezel.
4. Power off then on validator to return to work.
Refer to 7.1 if validator flashes after procedure with any flash count.
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8.2 Cleaning the BV20
Caution!
Do not use solvent based cleaners such as alcohol, petrol, methylated spirits, white spirit or PCB cleaner. This will result in permanent damage to the [Product Name], only use a mild detergent.
Caution!
Dirt, dust or other residue causes bad note acceptance rates and other performance degradation. The recommended cleaning interval is once a month!
1. Unclip Bezel from BV20 by pressing Lozenge Release Catch and pulling bezel:
2. Wipe dirt and debris away from wheels with a piece of cloth:
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8.3 Clearing a Checksum Error
According Flash Codes Table, some LED's flashing may indicate CHECKSUM errors. It may happen when, during comparing, validator's checksum does not match with original file's one after some manipulations (updating, repairing, etc.).
In this case, reprogram validator using Validator Manager program as described in
4.4.1.5 section. Test validator with several different banknotes after error is emoved.
If error persists, use another Dataset file for downloading to localize problem reason. If error is not disappearing, use EEPROM downloader software.
Please, contact support@innovative-technology.com for details.
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8.4 Re-initialisation of the sensors
For this procedure, please use ITL Diagnostic Tools (v.2.0.2 and higher) and Green calibration paper LB00160.
1. Connect validator using IF-17/DA2 adapter only, open Diagnostic Tools program and choose active com-port:
2. Then click “Initialise” tab:
3. Validator will start initialization procedure. Once the motor run continuously, insert green calibration paper
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4. Initialization process now complete:
If some of statuses are red, try to repeat initialization procedure.
Having same result, probably validator require repairing/some elements replacing.
For initialization file receiving, please, contact support@innovative-technology.co.uk.
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9 TECHNICAL DATA
9.1 Dimensions
9.2 Weight
Validator = 0.3 kg
9.3 Environmental Requirements
Environment
Minimum
Maximum
Temperature
+3°C
+50°C
Humidity
5%
95% Non-condensing
9.4 Power Requirements
9.4.1 Supply Voltages
Supply Voltage
Minimum
Nominal
Maximum
Supply Voltage (V DC)
+ 10.8 V DC
+ 12 V DC
+ 14.2 V DC
Supply Ripple Voltage
0 V
0 V
0.25 V @ 100 Hz
9.4.2 Supply Currents
Supply Current
Maximum
Standby
0.15 A
Running
0.54 A
Peak
1.50 A
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9.4.3 Power Supply Guidance
The BV20 requires a stable 12V DC / 1.7A power supply. Please check the power requirements of your host machine and other peripherals to dimension a suitable power environment for your machine setup.
TDK Lambda manufactures suitable power supplies. Please see table below for further details.
Power Supply Unit
Specification
RS Stock Code
Farnell Stock Code
TDK Lambda SWS50-12
+12 V DC / 4.3 A
466-5869
1184645
Power supply is to be earthed
9.5 Interface Logic Levels
Interface Logic Levels
Logic Low
Logic High
Inputs
0V to +0.5V
+3.7V to +12V
Outputs with 2K2Ω pull-up resistor
+0.6V
Pull-up voltage of host interface
Maximum Current Sink
50mA per Output
9.6 Reliability Data
MCBF: 100,000
9.7 Media Requirements
Notes length: 150 – 180mm
Notes width: 48 – 72mm
Polymer and windowed notes
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10 COMPLIANCES AND APPROVALS
10.1 EC Declaration of Conformity
RoHS
EN Directives
UL
REACH
WEEE
Central Bank Approvals
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11 APPENDIX
11.1 Cable Drawings
CN00174 Ribbon Cable (validator to IF-17):
300mm or longer
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IF17/IF18/DA3 Power Cable:
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CN00214 USB A-B Cable (host to IF-17):
11.2 Connector Specifications
Type
Vendor
Part Number
Pins
Pitch
Polarising
Housing
Leotronics
2652-2161
2x8
2.54mm
With Key
Crimp
Leotronics
2653-2000
Female
Housing
Molex
90142-0016
2x8
2.54mm
With Key
Crimp
Molex
90119-2121
Female
11.3 Switching to Programming Mode (SSP)
Press and Hold the Configuration Button for at least 2 seconds whilst the BV20 is powered up. The Bezel LED will flash rapidly to indicate that SSP is being loaded. Once this process has finished the BV20 will reset. The BV20 will now be in Programming Mode (SSP) and allow connection to a PC via a DA1 or DA2 adapter or connection to a DA3.
11.4 Free Fall Cashbox Advice
When installing BV20, adequate space in width and length must be allowed for received notes to be free falling behind BV20. Notes not allowed free falling will cause validator to malfunction.
11.5 ccTalk DES Encryption – Trusted Mode
The DES compatibility can be toggled on/off using Validator Manager version 3.3.12 or later. On the menu select Tools - Set Validator Options. On the General Options tab, the "cct DES encrypted" checkbox will be available when ccTalk® (CCT) interface is set. Click Apply Changes once the validator is configured as required.
In DES Trusted mode host requests the security keys of peripheral. Once obtained, the keys need not be transferred again until the peripheral is replaced. For key exchanging, please power on unit in ccTalk protocol and wait for a several seconds for key exchanging.
Use configuration button for rollback any previously set ccTalk key to original (see Configuration Button options, section 7.2).
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11.6 Escrow Control
The BV20 has a single note escrow facility. This allows the BV20 to hold onto the note once validated, and then only stack the note into a cashbox when the host machine confirms that the Vend operation has been completed. If no confirmation of the Vend is received, then the note will be returned to the user after 30 seconds. If the host machine itself aborts the transaction by setting the corresponding inhibit input high, the note is returned immediately. The sequence of operation is as follows:
Start
Pin 10 Held Low
Pulse Received?
Check Credit Line/s
No
Want to Accept Note?No
No Response
in 30s
Yes
Hold Pin 10 High Note Rejects
Pulse Received?
Check Credit Line/s
No
Credit
End
Hold Pin 10 Low
Channel Inhibit High
Yes
Yes
No Response
in 30s
Note Forcibly
Removed By
Customer
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Caution!
Only book the credit on the second Vend pulse!
11.6.1 Escrow Timing Diagram
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11.7 Low Power Mode Timing Diagram
Caution!
Low Power Mode can ONLY be used with the above Parallel, Pulse and Binary protocols and only be enabled by correctly completing the configuration cards or Validator Manager program
Low Power Mode can be used with all none serial communication protocols to reduce the power consumption of the BV20 when idle. When the BV20 is in this state the current consumption is reduced to approximately 1.2mA. The BV20 goes into low power mode approximately 4 seconds after the validator is powered up and remains in this state until a note is entered (Time A). Following a note insertion the BV20 returns to Low Power mode approximately 1 second after the Busy line goes High (After credit is given or note is rejected). (Time B)
Low Power mode uses 3 control lines: Vend – Pin 1, Inhibit – Pin 5 and Busy – Pin 9
When the Validator is enabled the Inhibit Line is Low and the Busy Line is High. This remains the same until a note is inserted (Time A).
When a note is inserted under the front sensor the BV20 wakes up and the busy line goes low to indicate that the validator is in use. The busy line remains low during the validating and stacking process and once the note has been successfully validated and stacked the vend line goes low to issue the credit.
After the credit is issued the busy line goes high and approximately 1 second after the busy line goes high (Time B) the BV20 goes back into low power mode.
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11.8 File Naming Convention
EUR01207_BV002004182328000_IF_01.bv1
Dataset Code EUR 01 2 07
Firmware Code BV00200 418 2328000
* -Only available for specific validators
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