General

CA-43 family of conditioners can power the sensor from which they read the voltage signal. Many sensors have a voltage output and independent power supply. The CA-43 family is ideal for such sensors. CA-43s are isolated single-channel conditioning modules that power (excite) sensors and then amplify, protect, filter, isolate and convert a signal to a level suitable for connection to a data acquisition system, Industrial PC, PLC, or other measurement system.

The CA-43 family of insulated modules protect people and measuring equipment and galvanically separate it from excessive events that may occur on the sensor side or elsewhere within the measurement environment. The module input is protected from voltage levels and transients up to 250 Vrms.

The CA-43 signal conditioning family can be mixed with other isolation module families within the same application. They can be plugged in and out of the measurement system without switching off the power supply voltage (hot swapable).

Prices and models of CA-43

Atributes

Instrumentation accuracy, linearity, repeatability and reliability
Transformer insulation min. 1500 Vrms
± 0.03% Accuracy
± 0.01% Linearity
80 dB NMR for 50 Hz
160 dB CMR
Triple insulation: input-output-power
Power supply of conditioner from 19 V to 30 V
Voltage Output: 0 ÷ 5V; 0 ÷ 10 V; ± 5 V; ± 10 V, or
Current output: 0 ÷ 20 mA; 4 ÷ 20 mA; ± 5 mA; ± 10 mA; ± 20 mA
Sensor excitation from 3.3V to 24V
250 V continuous input
Easy mounting on DIN rail
Transient protection by ANSI / IEEE C37.90.1-1989 specification
The warranty period is 7 years and the service life is 10 years

Simplified diagram of CA-43

Characterization

The CA-43 has a chopper input amplifier with low temperature drift, low offset and very stable gain. The amplifier is specified by two voltage references. On the front of the module under the front bezel are multi-turn trimmers for fine-tuning offset and zero. Both values are factory set and the user can recalibrate these values according to their needs.

The CA-43 has a factory-set voltage excitation. There are a number of voltage levels that can be set to be used to power different transducers. At the same time, the transducer output signal is converted to an appropriate voltage or current range that is adapted for use in acquisition systems.

The central component of the module is the signal isolation transformer. Like most transformers, this one has a primary and a secondary side. Using this terminology, the input side of the module is "primary side" and the output side of the module is called "secondary side". A sensor is connected to the primary side of the module and the secondary side of the module is connected to a data acquisition and measurement system, an analog input module of an Industrial PC or PLC, to a panel meter or other measuring system.

Transformer signal isolation uses an amplitude modulation method to obtain linear, stable and reliable characteristics. This technique produces better results than digital or linear optocouplers or capacitor isolation techniques. The primary side of the module is galvanically insulated or "floating" relative to the secondary side of the module and relative to the el. power supply. The signal demodulator on the secondary side of the module restores the original signal, which is then filtered and buffered to achieve low noise and low output impedance.

CA-43 Series insulation modules have a built-in fifth order filter, of which the first Anti-aliasing pole is located in the primary circuit of the module while a fourth order filter is located on the secondary side of the insulation barrier. After Anti-aliasing filtering, the signal is brought to the chopper stage behind which is a specially designed micro transformer. In the secondary stage, behind the insulation barrier, the signal is demodulated and re-filtered from transmission spikes and interference. The output of the module can be a voltage or current signal as needed.

The warranty period is 7 years and the service life is 10 years. It comes with a user guide in English and a calibration list.

CA-43 with 110/220V AC power supply (option)

The basic version of the CA-43 works with a standard DC power supply of 19 to 30V DC (24V DC nominal). However, if the application requires power from 110V or 220V AC mains, which is not a rare case, then the user can order the conditioner with suffix A.

This type of signal conditioner works with an AC voltage of 85 to 265V or a DC voltage of 100 to 400V. These two power ranges make the CA-43 applicable in many situations. Some users use these conditioners in an environment powered by a 110V battery, or under conditions of elevated AC voltage in the substations.

There are three power connectors on this conditioner model: L, N and GND (Left picture). Phase must be connected to L, N to zero, and GND to ground. In addition to the safety function, grounding has the function of reducing the oscillations of the internal voltage unit, so it should be connected in any case. If DC power is used, it must be connected to the L and N terminals (order does not matter).

Relay (option)

The CA-42 R-type isolated family of conditioners has a built-in relay with normaly open and normaly closed contact on the external connections. The relay can turn on or off up to 240V, 6A, and can be set to activate when the input signal is larger than the set value or when it is less than the set value. A hysteresis control is installed for the relay. Activation can be fine-tuned with a precision multi-turn trimmer potentiometer. The only limitation with this version is that if it is used with 220V power supply (version with suffix A), the relay only has a normaly open contact.

The activation level of the relay is adjusted by a potentiometer on the front of the conditioner. To avoid oscillating the relay when the input is equal to the setpoint, there is a hysteresis in the circuit. Hysteresis in the first case, when the relay is activated and when the input is greater than the set value, indicates the level by which the input signal should be smaller than the set size to activate the relay to switch it off, In the second case, indicates how much the input signal should be higher than the set point to turn the relay off. The hysteresis can be adjusted to 1% or 5% of the span by an internal jumper.

If the load that is connected to the relay is inductive, then a "snubber" must be added externally parallel to the relay contacts. The values of the snubber components are calculated, but can also be determined empirically for a given application. Generally, even if the load is connected to an inductive type relay, a 0.2 uF capacitor can be used with a 10 ohm resistor. For optimum performance, the snubber circuit should be calculated as it is the best way to optimally quench the spark on the relay.

Power supply and T-BUS connector

For the power supply of a smaller number of conditioners up to 20, a CS-24-48 that delivers 48W is recommended (picture on the left), and for greater number of conditioners a CS-24-90 of 90W should be used. Both models can, via the T-BUS connector be connected, directly, without wiring to power the conditioners on the same, or with the extension cable, on different DIN rails in a closed environment. This option raises reliability, greatly reduces the time of replacement of the conditioner and allows the conditioner to be connected or disconnected while the T-BUS is powered up.

Both power supplies work in a wide voltage range: CS-24-90 from 160V to 265V AC, while smaller, CS-24-48 can operate as much as 85V to 265V. If users do not want to use this type of power supply, they can also use other power supplies, but in this case, the power supply must be wired from one conditioner to the other by cables.

Picture on the left: Power supply CS-24-48 for conditioners with T-BUS connector

The printed circuit board of the conditioner on request can be protected with special lacquer which protects electronic components from moisture, corrosion and other types of contamination, which can significantly extend the life of this product and in terms of long-term measurement accuracy. When conditioner is prepared in this way it can be applied in many aggressive environments. For example: on ships or on the seashore, in conditions of aggressive vapors, and other places with high humidity, etc...

Specifications

Typical (25°C)

Parameter	CA-43
Excitation
Voltage	10V, 20V
Stability	±15 ppm/°C
External voltage protection	250V
Transient protection	ANSI/IEEE C37.90.1- 1989*
Output
Output load	600 Ω max
Output current max.	5 mA (Vout); 30 mA (Iout)
Short circuit protection	Continuous
Transients	ANSI/IEEE C37.90.1- 1989
CMV, input-output-power supply	Continuous1500 V
CMR 50Hz	110 dB
Output offset	±5 ppm/°C (Vout), ±6 ppm/°C (Iout)
Output noise 100 KHz	200 µVrms (Vout) and 1 µArms (Iout)
Accuracy
Accuracy	±0.03%
Linearity	±0.01%
Input offset stability	±1 µV/°C
Output offset stability	±5 ppm/°C (Vout) or ±15 ppm/°C (Iout)
Gain stability	±55 ppm/°C
Other parameters
Frequency bandwidth -3 dB	3 Hz
NMR	100 dB per decade
Rsponse time, Span 90%	150 ms
Adjustability	±1.5% offset and ±2.5% gain - typical
Power supply
Voltage	19 V to 30 V DC
Current consumption	65 mA (Vout) or 85 mA (Iout)
Reverse polarity protection	Continuous
Transient protection	ANSI/IEEE C37.90.1- 1989
Environment
Temperature range (specifications)	-25 do +80 °C
Working range	-40 do +85 °C
Storage range	-40 do +85 °C
Relative humidity	Non-condensing 0 do 95%
Dimensions
Mounting rail DIN EN50022 (mm)	-35 x 7.5; -35 x 15
Dimensionss (mm)	114,5 x 22,5 x 99