The VTi21 has been designed for the monitoring of railway assets that require high-speed sampling and/or multiple input channels.
It has been designed with a small form factor to allow for simple installation, and ships with two "current transformer" sensors suitable for alternating-current monitoring. Such technology is suitable for many track circuit and switch machine technologies.
The VTi21 contains an on-board microprocessor that processes the raw incoming waveforms, and derives computed values that are relevant from a condition based maintenance perspective.
The VTi21 can derive many output parameters from the source data, and all of these parameters can be output over the RS485 data link to a connected Mpec data logger.
A single value, selected based upon it's value from a condition based maintenance perspective, is output on the 4-20mA output. This can be fed into any industry standard 4-20mA data logger input.
The primary railway assets for which the VTi21 unit has been designed are:
Each application requires custom firmware to be run on the VTi21 hardware. Therefore each VTi21 board can only be used to monitor a limited type of assets. The firmware version is indicated on the base of the unit and can be specified upon ordering. Later VTi21 devices purchased after September 2019 are programmable in the field, allowing the VTi21 to be re-purposed. Contact Mpec for further details. |
Application | Product Code |
|---|---|
| AC Vane Relay (VT1) Applications | VTi21-VT1 |
| Audio Frequency (EbiTrack 200 / TI21) Applications (Transmitter) | VTi21-TI21-TX |
| Audio Frequency (EbiTrack 200 / TI21) Applications (Transmitter - Low Power) | VTi21-TI21-TX-LP |
| Audio Frequency (EbiTrack 200 / TI21) Applications (Receiver) | VTi21-TI21-RX |
| Audio Frequency (FS2500) Track Circuit Applications | VTi21-FS25 |
| Audio Frequency (FS2600) Track Circuit Applications | VTi21-FS26 |
| Aster Applications | VTi21-ASTER |
| UM71 Applications | VTi21-UM71 |
| Reed Applications | VTi21-REED |
| High Voltage Impulse (HVI) Applications | VTi21-HVI |
| General Purpose AC Sensing Applications | VTi21-ACS |
| Reed Frequency Division Multiplexing | VTi21-RFDM |
| BR930 / QStyle Bracket for mounting 4 x VTi21 | BRK-GEN |
The main hardware features are:
The VTi21 ships with two "current transformer" sensors:
The VTi21 does not feature any isolating components.
Isolation is achieved by:
All Mpec data logging equipment has isolation at all of the above interfaces in excess of 1 MΩ at 1 kV.
The current transformer has a primary to secondary winding ratio of around 1:1000. It would therefore take around 500 volts to be applied to the secondary winding, at the correct frequency and phase, in order to falsely energise a track circuit. In the incredibly unlikely event that the above did occur, the secondary winding of the transducer, and the magnetic material forming the CT core, could not sustain such a signal. In practice the magnetic core would reach flux saturation prior to supporting enough energy to induce significant primary current. A signal of the order of 500V would also heat the secondary winding to a point where it would melt and short out. |
The current transformers can be removed from the VTi21 sensor body by releasing the grub screws at the rear of the unit.
This exposes two mounting holes.
These mounting centers have been designed to accept:
Bolts and screws are supplied with each VTi21 unit.
This allows a wide array of mounting options.
Mpec are able to manufacture mounting brackets to suit customer specific mounting arrangements:
The VTi21 mounting bracket is made from A2 stainless steel, and occupies one relay position. Each bracket can accommodate up to 4 x VTi21 devices.
Please contact Mpec to discuss mounting bracket requirements.
The supplied current transducers can be "docked" into the VTi21 body for compact installation.
This allows the tail cables of the current transformers to be shortened.
Alternatively, the transducers are small and light enough to be hung directly from monitored conductors, or secreted in cable trunking.
In this instance, excess transducer tail cable can still be shortened to suit.
Connect one current transducer to the left hand CT input (product marking will vary dependent on application).
Connect the second current transducer to right hand CT input (product marking will vary dependent on application).
The VTi21 label is colour coded to ensure that the correct cable cores are connected to the correct input.
Please note the the transducers will function regardless of the polarity of connection, however for phase sensitive applications such as VT1 monitoring, incorrect readings will be obtained if correct wiring is not observed. |
Take care when connecting power supply (PWR) to the VTi21!
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The VTi21 4-20mA output can be used to transmit a single application dependent parameter to any data logger that that accept 4-20mA instrumentation signals.
Wiring for an Mpec SA380TX is shown above for convenience. Twisted pairs are preferred, however for short cable runs, it is not essential.
The 4-20mA current loop signal will flow from the "4-20" pins.
Most data loggers, the SA380TX included, provide a power supply for powering off-board sensors. The VT21 is to be powered via the "+" and "-" pins.
The above wiring can be realised using a single 4-core cable per VTi21.
NEVER wire 4-20mA output to relay coils or other signalling device inputs. |
In the presence of strong radiated Electromagnetic fields (>3 V/m in the region of 1.8 to 2.0 GHz ) the 4-20mA output may experience a drop in accuracy from +/-1% to +/- 2.5%. If undesirable interference is observed then use screened cable for the 4-20 mA interface. The cable screen should be terminated to earth at one end. |
The VTi21 RS485 output can be used to transmit the multiple application dependent parameters on the RS485 bus to Mpec SA380TX data loggers.
Up to 7 x VTi21 sensors can be supported with a single RS485 input and an auxiliary power supply card.
The power and data bus cables can be up to 1,500m in length.
Although at first glance the below wiring arrangement may look complex, in practice it means that a single 4-core cable can be "daisy chained" between logger and all connected VTi21 boards, resulting in quicker and tidier installations. |
The RS485 data link uses a bus topology. A single twisted pair is to be "daisy chained" between logger and VTi21 sensors as shown
Power connection can also be daisy chained between VTi21 sensors.
The power consumption of the VT21 at 12V DC is 0.5W maximum, therefore:
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Where an SA380TX does not have an auxiliary power supply card fitted but does have analogue input cards fitted; VTi21 sensors can still be used in RS485 mode by wiring as follows.
This wiring scheme is not optimal, as power cable needs to be run individually for each VTi21 sensor. |
The RS485 data link uses a bus topology. A single twisted pair is to be "daisy chained" between logger and VTi21 sensors as shown
Power is provided by the SA380TX analogue input channels, these inputs provide a power supply for powering off-board sensors.