DCR-1006A Instructional Video Pt. 1

This two-part video series provides a step-by-step guide to setting up and configuring the APG DCR-1006A controller for sensor control and monitoring. The DCR-1006A is a versatile solution for on-site level monitoring and remote communication through APG’s Tank Cloud.

You’ll learn how to:

• Wire DST, MNU, and MPX sensors using RS485 communication

• Connect AC or DC power to the DCR-1006A

• Configure relay trip points for applications like conveyor control

• Set up level monitoring in tanks using 4–20 mA analog output

• Adjust sensor sensitivity, blanking, and application modes for your needs

Whether you’re monitoring moving equipment or managing tank levels, this tutorial walks through practical examples and shows how to tailor the DCR-1006A for your application.

Transcript: (Part 1)

“Thank you for choosing Automation Product Group’s DCR-1006A for your sensor control and monitoring. The DCR-1006A is the best choice for simple on-site level monitoring and also connects to APG’s Tank Cloud for remote online communication. Many options and configurations are available to customize settings for your unique application. In this video, we will demonstrate how to set up the DCR-1006A for common applications using RS485 and DST sensors, AC and DC power, and analog output with alarms.

Let’s begin by wiring a sensor to the DCR-1006A. Reference the sensor label for wiring information. Remove the lid from the DCR, then remove the four screws holding the top board in place and gently remove the top board. If you are using a DST sensor, locate the DST input terminals in the bottom right corner of the bottom board. Attach the red power wire to the positive terminal and the black power wire or ground to the negative terminal. If your DST has a coaxial cable output and your DCR-1006A is equipped with an RF connector, the sensor can be connected to this external connector.

If you are using a sensor which uses RS485 communication such as an MNU or MPX, connect the positive and negative power wires to the 24-volt and ground terminals, and the A and B communication wires to the RS485 sensor A and B terminals. Next, we will hook up power. The DCR-1006A is compatible with either AC power from 85 to 264 volts or DC power from 12 to 24 volts. Before installing the power wires, ensure they are disconnected from the power source. If using AC power, attach the live power wire (commonly black) to the ACL or positive terminal, the neutral power wire (commonly white) to the ACN or negative terminal, and the earth ground wire (commonly green and yellow) to the ground terminal. If you are using DC power, the positive and negative terminals should match the outputs from your power supply.

Once the sensor and power wires are connected, reinstall the top board and turn on or plug in the power supply. The DCR’s LCD screen should turn on and the sensor should start audibly ticking. Ensure the DCR displays the distance reading from the sensor. If you are using an RS485 sensor, use the keypad to access Input Select from the Basic Menu and select RS485. From this point, the setup process will vary depending on the specific needs of your application. For this demonstration, we will set up the sensor to read distance. This type of setup is useful in areas with moving parts, such as monitoring the location of a moving arm on a conveyor and using relay trip points to change the action of the machine.

For example, let’s set up a sensor to monitor a target and run motors to make it move between five and ten feet from the sensor. First, determine the distance from the sensor to the nearest point you want your target to reach—five feet for this example. Using the keypad, navigate to the Basic Menu, find the Units option, and change it to feet. The trip point setup options are located in the Output Menu. The Trip 1 value (shown as TRIP 1V) sets the first actuation point of the relay—five feet for this example. The Trip Window (TRIP 1W) sets the difference from the Trip 1 value to the secondary actuation point. Since we want the sensor to stop at ten feet, we will set this value to five feet as well.

The Trip Type (TRIP 1T) sets the type of trip point. We want this motor to activate when the target comes closer than five feet and remain on until it reaches ten feet. To set this up, we will use the Hysteresis Near (H NEAR). This type of trip will activate when the distance reading equals the trip value and stay on until it reaches the sum of the trip value and trip window. Once the target has reached ten feet from the sensor, the motor connected to the H NEAR trip point should deactivate. At this time, we want the secondary motor attached to the second trip point to activate to bring the target back. Since this motor will follow the same distances and trip points, we will set up the trip value and trip window (TRIP 2V and TRIP 2W) the same as Trip 1. To change the trip functions so the motor moves in the opposite direction, we will use the Hysteresis Far (H FAR) trip type for TRIP 2T. This will activate the motor when the distance reaches the sum of the trip value and trip window, and stay on until it reaches the trip value.

Sensor settings such as sensitivity and blanking can be found in the Ultra Menu. These settings may need to be adjusted depending on your application and environment. To wire external devices to the trip points, such as the motors in this example, locate the trip terminals on the DCR-1006A. Each trip output has a ground terminal and a choice between normally closed and normally open configuration. Since we want our motor to be on when the trip point is activated and off when the trip point is off, we will wire them to the NO, or normally open, position.

Another common application for the DCR-1006A is monitoring the level of material in a tank. For this example, let’s set up a sensor to monitor the level of water in a standard flat-bottom tank that stands ten feet tall. For this application, we will be calculating the level based on distance. To control the pump in our imaginary tank, we will be using an external current meter to monitor the level, so we will need to use the 4–20 milliamp output from the DCR-1006A. The 4–20 milliamp output is on an isolated circuit that must be powered in order to function.

To power the circuit from the 24-volt power source on the DCR, install a jumper from the 24-volt terminal to the 4–20 circuit’s voltage terminal. The 24-volt ground terminal will connect to the meter ground, and the 4–20 out terminal will connect to the meter’s milliamp input. If an isolated 4–20 output circuit is desired, simply connect the positive wire of your 9–28 volt DC power supply to the VS terminal. The negative power supply output should connect to the ground on the meter, and the 4–20 out terminal will connect to the positive milliamp input of the meter.

To set up the DCR-1006A for level monitoring, access the Application Type menu (APP TY) to change the mode to Level. Now, as the target moves closer to the sensor, the sensor reading will increase to reflect the greater volume of material being detected. Set the empty distance to ten feet and the full distance to one foot in the Level Mode menu. The current output from the DCR-1006A is set separately from the application type. To change current output settings, access the Output Menu. SET4MA and SET20MA correspondingly set the low and high current output set points. CAL4MA and CAL20MA are used to fine-tune the current output readings. It should not be necessary to adjust the calibration parameters. To set the current output to correspond to the distance readings on the DCR-1006A, set the SET4MA setting to ten feet and the SET20MA to one foot. If necessary, calibrate the output points using the CAL4MA and CAL20MA functions.

These are just a couple of ways that the DCR-1006A can be set up and customized for your sensor controlling and monitoring needs. With other functionalities such as customizable tank dimensions for level monitoring and cloud capability, the DCR can be set up for almost any application. For more options and information, check out our website at

Thank you for choosing Automation Product Group’s DCR-1006A for your sensor control and monitoring. The DCR-1006A is the best choice for simple on-site level monitoring and also connects to APG’s Tank Cloud for remote online communication. Many options and configurations are available to customize settings for your unique application. In this video, we will demonstrate how to set up the DCR-1006A for common applications using RS485 and DST sensors, AC and DC power, and analog output with alarms.

Let’s begin by wiring a sensor to the DCR-1006A. Reference the sensor label for wiring information. Remove the lid from the DCR, then remove the four screws holding the top board in place and gently remove the top board. If you are using a DST sensor, locate the DST input terminals in the bottom right corner of the bottom board. Attach the red power wire to the positive terminal and the black power wire or ground to the negative terminal. If your DST has a coaxial cable output and your DCR-1006A is equipped with an RF connector, the sensor can be connected to this external connector.

If you are using a sensor which uses RS485 communication such as an MNU or MPX, connect the positive and negative power wires to the 24-volt and ground terminals, and the A and B communication wires to the RS485 sensor A and B terminals. Next, we will hook up power. The DCR-1006A is compatible with either AC power from 85 to 264 volts or DC power from 12 to 24 volts. Before installing the power wires, ensure they are disconnected from the power source. If using AC power, attach the live power wire (commonly black) to the ACL or positive terminal, the neutral power wire (commonly white) to the ACN or negative terminal, and the earth ground wire (commonly green and yellow) to the ground terminal. If you are using DC power, the positive and negative terminals should match the outputs from your power supply.

Once the sensor and power wires are connected, reinstall the top board and turn on or plug in the power supply. The DCR’s LCD screen should turn on and the sensor should start audibly ticking. Ensure the DCR displays the distance reading from the sensor. If you are using an RS485 sensor, use the keypad to access Input Select from the Basic Menu and select RS485. From this point, the setup process will vary depending on the specific needs of your application. For this demonstration, we will set up the sensor to read distance. This type of setup is useful in areas with moving parts, such as monitoring the location of a moving arm on a conveyor and using relay trip points to change the action of the machine.

For example, let’s set up a sensor to monitor a target and run motors to make it move between five and ten feet from the sensor. First, determine the distance from the sensor to the nearest point you want your target to reach—five feet for this example. Using the keypad, navigate to the Basic Menu, find the Units option, and change it to feet. The trip point setup options are located in the Output Menu. The Trip 1 value (shown as TRIP 1V) sets the first actuation point of the relay—five feet for this example. The Trip Window (TRIP 1W) sets the difference from the Trip 1 value to the secondary actuation point. Since we want the sensor to stop at ten feet, we will set this value to five feet as well.

The Trip Type (TRIP 1T) sets the type of trip point. We want this motor to activate when the target comes closer than five feet and remain on until it reaches ten feet. To set this up, we will use the Hysteresis Near (H NEAR). This type of trip will activate when the distance reading equals the trip value and stay on until it reaches the sum of the trip value and trip window. Once the target has reached ten feet from the sensor, the motor connected to the H NEAR trip point should deactivate. At this time, we want the secondary motor attached to the second trip point to activate to bring the target back. Since this motor will follow the same distances and trip points, we will set up the trip value and trip window (TRIP 2V and TRIP 2W) the same as Trip 1. To change the trip functions so the motor moves in the opposite direction, we will use the Hysteresis Far (H FAR) trip type for TRIP 2T. This will activate the motor when the distance reaches the sum of the trip value and trip window, and stay on until it reaches the trip value.

Sensor settings such as sensitivity and blanking can be found in the Ultra Menu. These settings may need to be adjusted depending on your application and environment. To wire external devices to the trip points, such as the motors in this example, locate the trip terminals on the DCR-1006A. Each trip output has a ground terminal and a choice between normally closed and normally open configuration. Since we want our motor to be on when the trip point is activated and off when the trip point is off, we will wire them to the NO, or normally open, position.

Another common application for the DCR-1006A is monitoring the level of material in a tank. For this example, let’s set up a sensor to monitor the level of water in a standard flat-bottom tank that stands ten feet tall. For this application, we will be calculating the level based on distance. To control the pump in our imaginary tank, we will be using an external current meter to monitor the level, so we will need to use the 4–20 milliamp output from the DCR-1006A. The 4–20 milliamp output is on an isolated circuit that must be powered in order to function.

To power the circuit from the 24-volt power source on the DCR, install a jumper from the 24-volt terminal to the 4–20 circuit’s voltage terminal. The 24-volt ground terminal will connect to the meter ground, and the 4–20 out terminal will connect to the meter’s milliamp input. If an isolated 4–20 output circuit is desired, simply connect the positive wire of your 9–28 volt DC power supply to the VS terminal. The negative power supply output should connect to the ground on the meter, and the 4–20 out terminal will connect to the positive milliamp input of the meter.

To set up the DCR-1006A for level monitoring, access the Application Type menu (APP TY) to change the mode to Level. Now, as the target moves closer to the sensor, the sensor reading will increase to reflect the greater volume of material being detected. Set the empty distance to ten feet and the full distance to one foot in the Level Mode menu. The current output from the DCR-1006A is set separately from the application type. To change current output settings, access the Output Menu. SET4MA and SET20MA correspondingly set the low and high current output set points. CAL4MA and CAL20MA are used to fine-tune the current output readings. It should not be necessary to adjust the calibration parameters. To set the current output to correspond to the distance readings on the DCR-1006A, set the SET4MA setting to ten feet and the SET20MA to one foot. If necessary, calibrate the output points using the CAL4MA and CAL20MA functions.

These are just a couple of ways that the DCR-1006A can be set up and customized for your sensor controlling and monitoring needs. With other functionalities such as customizable tank dimensions for level monitoring and cloud capability, the DCR can be set up for almost any application. For more options and information, check out our website at

Thank you for choosing Automation Product Group’s DCR-1006A for your sensor control and monitoring. The DCR-1006A is the best choice for simple on-site level monitoring and also connects to APG’s Tank Cloud for remote online communication. Many options and configurations are available to customize settings for your unique application. In this video, we will demonstrate how to set up the DCR-1006A for common applications using RS485 and DST sensors, AC and DC power, and analog output with alarms.

Let’s begin by wiring a sensor to the DCR-1006A. Reference the sensor label for wiring information. Remove the lid from the DCR, then remove the four screws holding the top board in place and gently remove the top board. If you are using a DST sensor, locate the DST input terminals in the bottom right corner of the bottom board. Attach the red power wire to the positive terminal and the black power wire or ground to the negative terminal. If your DST has a coaxial cable output and your DCR-1006A is equipped with an RF connector, the sensor can be connected to this external connector.

If you are using a sensor which uses RS485 communication such as an MNU or MPX, connect the positive and negative power wires to the 24-volt and ground terminals, and the A and B communication wires to the RS485 sensor A and B terminals. Next, we will hook up power. The DCR-1006A is compatible with either AC power from 85 to 264 volts or DC power from 12 to 24 volts. Before installing the power wires, ensure they are disconnected from the power source. If using AC power, attach the live power wire (commonly black) to the ACL or positive terminal, the neutral power wire (commonly white) to the ACN or negative terminal, and the earth ground wire (commonly green and yellow) to the ground terminal. If you are using DC power, the positive and negative terminals should match the outputs from your power supply.

Once the sensor and power wires are connected, reinstall the top board and turn on or plug in the power supply. The DCR’s LCD screen should turn on and the sensor should start audibly ticking. Ensure the DCR displays the distance reading from the sensor. If you are using an RS485 sensor, use the keypad to access Input Select from the Basic Menu and select RS485. From this point, the setup process will vary depending on the specific needs of your application. For this demonstration, we will set up the sensor to read distance. This type of setup is useful in areas with moving parts, such as monitoring the location of a moving arm on a conveyor and using relay trip points to change the action of the machine.

For example, let’s set up a sensor to monitor a target and run motors to make it move between five and ten feet from the sensor. First, determine the distance from the sensor to the nearest point you want your target to reach—five feet for this example. Using the keypad, navigate to the Basic Menu, find the Units option, and change it to feet. The trip point setup options are located in the Output Menu. The Trip 1 value (shown as TRIP 1V) sets the first actuation point of the relay—five feet for this example. The Trip Window (TRIP 1W) sets the difference from the Trip 1 value to the secondary actuation point. Since we want the sensor to stop at ten feet, we will set this value to five feet as well.

The Trip Type (TRIP 1T) sets the type of trip point. We want this motor to activate when the target comes closer than five feet and remain on until it reaches ten feet. To set this up, we will use the Hysteresis Near (H NEAR). This type of trip will activate when the distance reading equals the trip value and stay on until it reaches the sum of the trip value and trip window. Once the target has reached ten feet from the sensor, the motor connected to the H NEAR trip point should deactivate. At this time, we want the secondary motor attached to the second trip point to activate to bring the target back. Since this motor will follow the same distances and trip points, we will set up the trip value and trip window (TRIP 2V and TRIP 2W) the same as Trip 1. To change the trip functions so the motor moves in the opposite direction, we will use the Hysteresis Far (H FAR) trip type for TRIP 2T. This will activate the motor when the distance reaches the sum of the trip value and trip window, and stay on until it reaches the trip value.

Sensor settings such as sensitivity and blanking can be found in the Ultra Menu. These settings may need to be adjusted depending on your application and environment. To wire external devices to the trip points, such as the motors in this example, locate the trip terminals on the DCR-1006A. Each trip output has a ground terminal and a choice between normally closed and normally open configuration. Since we want our motor to be on when the trip point is activated and off when the trip point is off, we will wire them to the NO, or normally open, position.

Another common application for the DCR-1006A is monitoring the level of material in a tank. For this example, let’s set up a sensor to monitor the level of water in a standard flat-bottom tank that stands ten feet tall. For this application, we will be calculating the level based on distance. To control the pump in our imaginary tank, we will be using an external current meter to monitor the level, so we will need to use the 4–20 milliamp output from the DCR-1006A. The 4–20 milliamp output is on an isolated circuit that must be powered in order to function.

To power the circuit from the 24-volt power source on the DCR, install a jumper from the 24-volt terminal to the 4–20 circuit’s voltage terminal. The 24-volt ground terminal will connect to the meter ground, and the 4–20 out terminal will connect to the meter’s milliamp input. If an isolated 4–20 output circuit is desired, simply connect the positive wire of your 9–28 volt DC power supply to the VS terminal. The negative power supply output should connect to the ground on the meter, and the 4–20 out terminal will connect to the positive milliamp input of the meter.

To set up the DCR-1006A for level monitoring, access the Application Type menu (APP TY) to change the mode to Level. Now, as the target moves closer to the sensor, the sensor reading will increase to reflect the greater volume of material being detected. Set the empty distance to ten feet and the full distance to one foot in the Level Mode menu. The current output from the DCR-1006A is set separately from the application type. To change current output settings, access the Output Menu. SET4MA and SET20MA correspondingly set the low and high current output set points. CAL4MA and CAL20MA are used to fine-tune the current output readings. It should not be necessary to adjust the calibration parameters. To set the current output to correspond to the distance readings on the DCR-1006A, set the SET4MA setting to ten feet and the SET20MA to one foot. If necessary, calibrate the output points using the CAL4MA and CAL20MA functions.

These are just a couple of ways that the DCR-1006A can be set up and customized for your sensor controlling and monitoring needs. With other functionalities such as customizable tank dimensions for level monitoring and cloud capability, the DCR can be set up for almost any application. For more options and information, check out our website at apgsensors.com.”