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MFM7-APS180-LACD4 Hall Effect Angle Position Sensor

Description

The MFM7-APS180-LACD4 Hall Effect Angle Position Sensor operate at 8 to 32 VDC and provide 0-5V analog output over 180 degrees of rotation. “APS” type Angle Position Sensors are non-contact sensors that detect a marked magnet to define orientation. The output is proportional to the angle. The flange mount housing installation ensures proper orientation and gap from the target magnet. The MFM7-APS180-LACD4 Angle Position Sensor has a regulated and load dump protected input with linear analog output. A ratiometric output to internal 5 V regulator, analog ref. output wire can be connected for regulator tolerance. Furthermore, the sensor is potted in a flange mount housing with Deutsch DT04 4-pin connector. Target Magnet Sold Separately

The “Discontinuity Point” is the angle where the output changes from 0V to 5V. This is intentionally programmed to be as far away from the actual Linear Range as possible. With this, if the magnet goes past 0 degrees the output stays 0V; and if it goes past 180 degrees the output stays 5V.

Note: The operate gap range is dependent on the target magnet. Refer to the specifications chart for magnet options and gap ranges. Contact us for 0 to 5 V angle position sensors for other degrees of rotation!

Other features include:

  • Non-contact
  • Resistant to Shock & Vibration
  • Linear Voltage Output
  • Output Over 180 Degrees of Rotation
  • 5V or Regulated Versions

Specifications

Output TypeAnalog Voltage
Actuator MaterialMagnet
Frequency250 Hz
Supply Voltage, Vcc8 ~ 32 V
Operating Temp.-40 ~ 125 C
Package/CaseFlange mount
Termination StyleWire Leads with Connector

Applications

Aerospace, Agricultural, Automotive/Heavy Equipment, Consumer Electronics, Manufacturing, Marine, Medical, Military, Power Generation, Transportation

Series Data Sheet (PDF)
 
Print

Stock Check

Item No.DatasheetDistributorRegionQuantityCartRFQInventory Date
MFM7-APS180-LACD4 Digi-Key ElectronicsAmericas10 BUY RFQ2024-10-08
MFM7-APS180-LACD4 Heilind ElectronicsAmericas0 RFQ2024-10-12
MFM7-APS180-LACD4 MASTER/ONLINEAmericas0 RFQ2024-10-12
MFM7-APS180-LACD4 Standex FactoryAmericas0 RFQ2024-10-12
MFM7-APS180-LACD4 Mouser ElectronicsAmericas10 BUY RFQ2024-10-12
MFM7-APS180-LACD4 Arrow ElectronicsAmericas10 BUY RFQ2024-10-12
MFM7-APS180-LACD4 TTI Inc Global HeadquartersAmericas0 RFQ2024-10-12

Parametric Search

Mounting StyleFunction TypeSensing Range - On / Off (Gauss)Voltage Supply (VDC)Current Supply (mA)Output Leakage Current Max. (μA)Output On Voltage Typ. (mV)Chopping Frequency Typ. (KHz)Operating Temperature (°C)Cable Length (mm)
Clear Clear Clear Clear Clear Clear Clear Clear Clear Clear
Part Number Mounting StyleFunction TypeSensing Range - On / Off (Gauss)Voltage Supply (VDC)Current Supply (mA)Output Leakage Current Max. (μA)Output On Voltage Typ. (mV)Chopping Frequency Typ. (KHz)Operating Temperature (°C)Cable Length (mm)
MFM7-APS180-LACD4Flange MountAngle Position Sensor8 ~ 320Analog Voltage0Magnet-40 ~ 1250

Associated Parts

The A63-APS360-LACB1E Hall Effect Angle Position Sensor operate at 8 to 32 VDC and provide 0-5V analog output over 360 degrees of rotation. “APS” type Angle Position Sensors are non-contact sensors that detect a marked magnet to define orientation. The output is proportional to the angle. The flange mount housing installation ensures proper orientation and gap from the target magnet. The A63-APS360-LACB1E Angle Position Sensor has a regulated and load dump protected input with linear analog output. A ratiometric output to internal 5 V regulator, analog ref. output wire can be connected for regulator tolerance. Provided lock nuts used to set air gap and orientation to magnet. Target Magnet Sold Separately

The “Discontinuity Point” is the angle where the output changes from 0V to 5V. This is intentionally programmed to be as far away from the actual Linear Range as possible. With this, if the magnet goes past 0 degrees the sensor output will go up to 5V and if the magnet goes past 360 degrees the output drops to 0V.

Note: The operate gap range is dependent on the target magnet. Refer to the specifications chart for magnet options and gap ranges. Contact us for 0 to 5 V angle position sensors for other degrees of rotation!

Other features include:

  • Non-contact
  • Resistant to Shock & Vibration
  • Linear Voltage Output
  • Output Over 360 Degrees of Rotation
  • 5V or Regulated Versions

The MFM7-APS360-LACD4 Hall Effect Angle Position Sensor operate at 8 to 32 VDC and provide 0-5V analog output over 360 degrees of rotation. “APS” type Angle Position Sensors are non-contact sensors that detect a marked magnet to define orientation. The output is proportional to the angle. The flange mount housing installation ensures proper orientation and gap from the target magnet. The MFM7-APS360-LACD4 Angle Position Sensor has a regulated and load dump protected input with linear analog output. A ratiometric output to internal 5 V regulator, analog ref. output wire can be connected for regulator tolerance. Furthermore, the sensor is potted in a flange mount housing with Deutsch DT04 4-pin connector. Target Magnet Sold Separately

The “Discontinuity Point” is the angle where the output changes from 0V to 5V. This is intentionally programmed to be as far away from the actual Linear Range as possible. With this, if the magnet goes past 0 degrees the sensor output will go up to 5V and if the magnet goes past 360 degrees the output drops to 0V.

Note: The operate gap range is dependent on the target magnet. Refer to the specifications chart for magnet options and gap ranges. Contact us for 0 to 5 V angle position sensors for other degrees of rotation!

Other features include:

  • Non-contact
  • Resistant to Shock & Vibration
  • Linear Voltage Output
  • Output Over 360 Degrees of Rotation
  • 5V or Regulated Versions

The MFM7-APS90-LACD4 Hall Effect Angle Position Sensor operate at 8 to 32 VDC and provide 0-5V analog output over 90 degrees of rotation. “APS” type Angle Position Sensors are non-contact sensors that detect a marked magnet to define orientation. The output is proportional to the angle. The flange mount housing installation ensures proper orientation and gap from the target magnet. The MFM7-APS90-LACD4 Angle Position Sensor has a regulated and load dump protected input with linear analog output. A ratiometric output to internal 5 V regulator, analog ref. output wire can be connected for regulator tolerance. Furthermore, the sensor is potted in a flange mount housing with Deutsch DT04 4-pin connector. Target Magnet Sold Separately

The “Discontinuity Point” is the angle where the output changes from 0V to 5V. This is intentionally programmed to be as far away from the actual Linear Range as possible. With this, if the magnet goes past 0 degrees the output stays 0V; and if it goes past 90 degrees the output stays 5V.

Note: The operate gap range is dependent on the target magnet. Refer to the specifications chart for magnet options and gap ranges. Contact us for 0 to 5 V angle position sensors for other degrees of rotation!

Other features include:

  • Non-contact
  • Resistant to Shock & Vibration
  • Linear Voltage Output
  • Output Over 90 Degrees of Rotation
  • 5V or Regulated Versions

Technical Papers

Datasheets
Datasheet – RM-01-071 Magnet for Position and Speed SensorsDatasheet – RM-01-020 Magnet for Position and Speed SensorsDatasheet – PM-SCS50Fx075S-01022S Magnet in Bolt CasingDatasheet – PM-SCS50Fx075S-01022N Magnet in Bolt CasingDatasheet – AM-M1H2-04022 Magnet for Angle Position SensorDatasheet – MFM7-AH5-5VP21 Analog Hall Effect Switch SensorDatasheet – S12-AH5-5VP21 Analog Hall Effect Switch SensorDatasheet – M12-HS1-5KP21 Hall Effect Switch SensorDatasheet – S12R-SSRHS1-NOSL5-001 Hall Effect Switch Speed SensorDatasheet – S12R-SSRDSO-NOSL5-001 Hall Effect Gear Tooth Speed SwitchDatasheet – A47-18ADSO-ODP21 Hall Effect Gear Tooth SensorDatasheet – A12F-18ADSO-ODP23 Hall Effect Gear Tooth SensorDatasheet – S38J-22ADSO-5KJA5 Hall Effect Gear Tooth SensorDatasheet – A63-37ADSO-5KJA5 Hall Effect Gear Tooth SensorDatasheet – MFM7-37ADSO-P5P21 Hall Effect Gear Tooth SensorDatasheet – MFM7-37ADSO-ODX0B Hall Effect Gear Tooth SensorDatasheet – MFM7-37ADSO-LNCP13 Hall Effect Gear Tooth SensorDatasheet – MFM7-APS90-LACD4 Hall Effect Angle Position SensorDatasheet – MFM7-APS180-LACD4 Hall Effect Angle Position SensorDatasheet – MFM7-APS360-LACD4 Hall Effect Angle Position SensorDatasheet – A63-APS360-LACB1E Hall Effect Angle Position SensorDatasheet – S63B-DHS1-5KCB2A Hall Effect Dual Switch SensorDatasheet – MFM7-DHS1-5KCD4 Hall Effect Dual Switch SensorDatasheet – S12-DHS1-5KSA5 Hall Effect Dual Switch SensorDatasheet – M12-HS1-5KCB2 Hall Effect Switch SensorDatasheet – A47-HS1-P5P21 Hall Effect Switch SensorDatasheet – A47-HS1-5KP21 Hall Effect Switch SensorDatasheet – S38-HS1-5KP21 Hall Effect Switch SensorDatasheet – S12H-275VPA-RGCB2 Hall Effect Metal Detection SensorDatasheet – MFM7-275VPD-RGCD4 Hall Effect Metal Detection SensorDatasheet – S18-275VPD-RICB1E Hall Effect Metal Detection SensorDatasheet – S12-275VPD-5VCB2 Hall Effect Metal Detection SensorDatasheet – S12-275VPD-RGP21 Hall Effect Metal Detection SensorDatasheet – S18-SSTHS1-R5SA5-30 Hall Effect Magnet Speed SwitchDatasheet – S12R-SSRDSO-NOSL5-500 Hall Effect Gear Tooth Speed SwitchDatasheet – S12R-SSRDSO-NCSL5-001 Hall Effect Gear Tooth Speed SwitchDatasheet – S12H-SSTDSO-R5CB2-500 Hall Effect Gear Tooth Speed SwitchDatasheet – S12H-SSTDSO-R5CB2-001 Hall Effect Gear Tooth Speed SwitchDatasheet – A44-18ADSO-P5P21 Hall Effect Gear Tooth SensorDatasheet – MFM7-37ADSO-L5CP13 Hall Effect Gear Tooth SensorDatasheet – MFM7-37ADSO-L5CD3 Hall Effect Gear Tooth SensorDatasheet – MFM61O-18ADSO-L5CP13 Hall Effect Gear Tooth SensorDatasheet – S12-18ADSO-5KCB2 Hall Effect Gear Tooth Sensor

Applications

Media

AI Demand Fuels Reed Technology Use | Electronica China 2024

AI Industry's stronger demand for power and test equipment drive reed switch, sensor, and relay use.

Ralf Maier speaks to the AI Industry's impact on Reed technology use. "We are continuously developing new products for all our three product lines. We have the reed switches, sensors and relays. The AI industry has a stronger demand for power, but also a stronger demand for test equipment. This test equipment is used around the semiconductor fabrication and our products, especially the reed relays, are used in unique test equipment around the world to support these industries. Reed technology is used in almost every market. I think in your daily life you come across reed products every day. They are used in appliances such as washing machines and fridges, but they also used in security products like door alarm systems. But then we just talked about the semiconductor test equipment. Many, many reed relays are used there.

And one of our biggest markets is transportation and automotive where the electric vehicles take a large market share. Obviously, the last few years were very challenging for all the industry manufacturers. We have 10 factories around the world, and we have some unique capabilities, but also capabilities we have in different sites. So, we can support our customers in all the major regions directly with our processes and products. So, our intention is to continue to grow and to diversify our product portfolio. We have a strong road map for all three product lines for the reed switches, the sensors and the relays, and we continuously invest into new processes to be more efficient. Standex Electronics is your partner for sensing and switching solutions across the globe. We enable an electrified future."

Reflecting on a successful week at Electronica China, we at Standex Electronics are invigorated by the connections we've made and the opportunities that lie ahead. Our participation in this premier event has not only allowed us to showcase our cutting-edge solutions from Sanyu but also to engage in meaningful dialogue with industry peers and customers.

Our commitment to innovation was met with enthusiasm, and we're excited to foster the new relationships built during the tradeshow. The synergy between problem-solving and customer satisfaction is what drives us forward. Here's to transforming these engagements into enduring partnerships and continuing to lead with innovation in the electronics sector.

Product Training Module – Reed Sensor vs. Hall & Mechanical

Welcome to Standex Electronics' How to Select the Correct Technology for a Given Sensor Requirement. We will focus on the following sensor technologies - Reed, Hall, and Electromechanical. These sensors all provide a switching function either directly or indirectly. We will introduce the key specifications, and how these parameters compare to each other for the different technologies.

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Tradeshows & Events

electronica 2024
Time: November 12- 15, 2024
Place: Messe Munich
Booth No.: 331
For More Details, Click Here.

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