At CAS DataLoggers we receive calls every day on these applications and have put together this brief guide covering the basics of how to Record AC & DC Voltage & Current measurements. A common data logging application is measuring voltage and current flowing into or out of a piece of equipment, such as a user monitoring current in wind turbines. These measurements can be broadly classified into two groups: AC and DC. Depending on the levels involved, some data logger models can directly measure DC voltage and current. For example, the dataTaker DT80 family of data loggers can accept DC voltages up to +/- 30 volts and DC currents up to 30 mA directly. However with a few exceptions, most data loggers cannot measure AC voltage or current directly and require external transducers to convert the parameter of interest into a signal that the data logger can measure.
Record Accurate AC and DC Voltage and Current Measurements with Data Loggers.
AC Voltage and Current Data Loggers:
There are several types of data loggers suitable for measuring AC voltage and current. These include units with built-in transducers supporting a specific voltage and/or current range.
If you need to monitor AC signals outside a certain range or a mix of AC and DC voltage and/or current inputs, you can use a Universal Input Data Logger. These can be outfitted with transducers to measure almost any type of input, from mV and uAmps to thousands of volts or amps.
AC Voltage Measurements:
- AC Voltage transducers – If your application involves tracking incoming line voltage, there are a number of vendors who provide standard AC voltage transducers. These are available in both single and multi-phase versions and with standard or True RMS calibrations.
- AC Voltage signal conditioner modules – If your application requires the measurement of small AC voltages or a large number of channels, 5B series signal conditioner modules are available with 100 mV to 300V inputs.
AC Current Measurements:
- AC Current transducers – A standard method of measuring AC current for a power line-connected device is to use an AC current transducer which converts an AC current to a DC voltage or 4-20 mA signal that can be measured with the data logger. As is the case with AC voltage sensors, current transducers are available in both single phase and multi-phase models. The current transducers can utilize either an internal current-sensing element for small currents up to about 20 AAC, or an external current transformer or sensor for currents up to thousands of amps.
- Clamp-on current sensors – Clamp-on current sensors are available in a variety of models and current ranges with either DC or AC voltage outputs. Clamp-on sensors are easy to use: simply open the clamp and place it around one of the current-carrying conductors. They are ideal for temporary installations and can easily be moved from site to site, although they are somewhat more expensive than fixed current transducers.
- Split core transformers – Split core transformers are very similar to clamp-on current sensors but are intended for semi-permanent installations. They consist of a transformer where one of the legs can be opened or removed to place around the conductor and then be secured with a latch or some other type of fastener. Some models provide an AC current output that must be used with a current transducer to provide a signal for the data logger, while other models have built-in signal conditioning to provide a dc voltage or current that can be measured with the data logger.
- Rogowski coils – A Rogowski coil is a specially-wound toroidal coil that can be opened up and placed around a conductor carrying an AC current. The alternating magnetic field generated by the AC current induces a voltage in the coil. This voltage is proportional to the rate of change of current in the conductor. This voltage is then electronically integrated to provide an output voltage that mimics the current waveform in the conductor. Rogowski coils are suitable for measurement of currents up to thousands of amps, are not sensitive to positioning around the conductor, and can provide accurate phase response.
DC Voltage and Current Data Loggers:
For DC applications, there are data loggers specifically designed for taking voltage and current measurements using probes that can be directly connected to the signal source. These models typically cost less and are easier to set up, but in turn they offer less flexibility. If you think that your range of measurements may change in the future, use a data logger with an external transducer which will allow you to change the input range by connecting a different transducer.
Again, if you need to log other signals in addition to voltage/current, or if you need to monitor a mix of DC and AC voltage/current, you can configure a general-purpose Universal Input Data Logger with appropriate transducers to enable the simultaneous measurement of multiple input signal types.
DC Voltage Measurements:
- Attenuators – The simplest method of measuring a DC voltage that is outside the measurement range of the data logger is to use an attenuator. This is just a fancy name for a few resistors wired together to divide the incoming voltage to a range compatible with the data logger. Two issues to note when using attenuators are the common mode voltage and the potential effects of resistive loading on the measurement accuracy.
- DC voltage transducers – A number of companies offer packaged DC voltage transducers that convert the incoming voltage to a range that is compatible with the data logger. These units offer the advantages of being able to measure very small (< 0.1) and very high (>1000) volt inputs, they have input to output isolation, and they only cause minimal loading effects. DC voltage transducers can also provide an output either as a voltage or as a 4-20 mA signal, which is beneficial if there is a long distance between your measurement point and the data logger.
- Signal conditioner modules – Standard signal conditioner modules such as the ubiquitous 5B series provide up to 1500 volts of isolation and amplification or attenuation in compact packages that are suitable for multi-channel systems. They are available in a wide range of input voltages and provide a DC voltage output. Because of their small size and their ability to mix and match input types and ranges, signal conditioner modules are very useful in systems with a high channel count.
DC Current Measurements:
- Current Shunts – A current shunt consists of a conductor with a very small (but known) resistance. The current flowing through the shunt creates a voltage drop than can be measured with the data logger. These are available in ranges to handle 5 to 1000 amps and to provide an output from 0-1 volts. Like the attenuators for DC voltage measurements, current shunts suffer from the issue of common mode voltage.
- DC Current Transducers – DC current transducers often utilize a Hall Effect sensor to allow current measurement without direct contact with the conductor. The disadvantage of these sensors is that they typically have limited resolution for lower currents; however they work very well for higher currents.