NV9 USB+ The NV9 USB+ is the next generation banknote validator, boasting enhanced sensing technology and a high acceptance rate for multi-currency. NV9 USB+ is a versatile banknote validator with cashbox and bezel options to suit all applications. The unit can be mounted horizontally or vertically and e xceptional field reliability make the NV9 USB+ a truly global product. A note float module can be added to provide note recycling capability - See + for more information Features • Exceptional field reliability • Enhanced sensing technology • Cashbox & bezel options to suit all applications • Future proof • Add on recycler available. So, you want to attach a payment device to your embedded or PC based machine and don’t know a thing about which device and protocol to use. These are the most common protocols used, I have tested more or less all of them: Serial pulse protocol Mostly used on vending or kiddie ride machines where there is no big amounts of money involved. A common configuration is with one data output that sends one pulse per major / minor currency unit and one input to disable the acceptance. Some have individual inputs to enable each coin or bill channel. On coin hoppers there is an input that runs the hopper motor and an output that send a pulse for each coin paid. CcTalk Serial Communication Protocol - Generic Specification - Issue 4.7. 4.1 24-05-01 Modification to recommended ccTalk interface circuit ‘Circuit 1 - ccTalk Standard Interface’ 4.2 05-10-01 Addition of connector type 9 for serial universal hopper Serial Protocol - Voltage Levels. Allowable ranges now. CASH-Interface2 - Control coin validator + bill validator + hopper via PC. CcTalk is not supported. Using a USB to serial converter the correct COM port number can be found in the Windows device manager, see above video. Billiard for pc offline. Check all cables if they fit tight. Remove all extension cables, e.g. USB extension cord or USB hub. ![]() The host knows how many coins/bills were paid or accepted by counting the pulses. This can be problematic on higher value bills or coins, for a 100 Eur bill 100 pulses must be sent, the probability that an error occur is pretty high. There is no error recovery, some security can be reached by tightening the acceptable pulses width error accepted. Most low price coin and bill acceptors have this protocol available by firmware or dip-switch or other settings. At a minimum only one data input is needed on the host machine. Parallel pulse protocol Only for coin and bill acceptors. Is the same as the the pulse protocol but each coin have it’s own output, this way the time to read a 5 Eur bill is the same as for a 100 Eur bill. The down side of this is that the host machine will need one input for each bill / coin channel. If you use also the individual enable inputs you will have a large data bus, with large connectors. The security is somehow higher due the redundancy in the data received by the host machine. Binary serial Uses a RS232 or TTL levels RS232 to send a byte for each bill accepted. For simplicity can be the bill/coin value like 0x05 for 5 Eur 0x0A for 10 Eur, 0x32 for 50 Eur and so on or the bill / coin channel like 0x01 for 5 Eur, 0x02 for 10 Eur and so on. The security is still pretty low but it’s fast and at a minimum needs only one data wire. Binary parallel Is a variant of parallel pulse protocol where a the outputs are valid only on the edge of a clock line, this allow using combinations to represent the bill channel so 16 bills can be signaled using 4 data outputs and a clock line. MDB serial protocol Is a serial protocol designed for vending machines, the security is pretty high with error recovery, many kind of devices can be driven including cashless audit and age verification devices. It uses optically insulated RX and TX which is good for the noise protection RS232 like 9600, 9 bits no parity 1 stop bit. It uses a simple checksum to check the integrity of the data packets A drawback is that it uses 9’th bit signalling that isn’t supported by most PC operating systems.
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