Aerospace Position Measurement Sensors
Single-Channel Aerospace LVDTs
Single-channel aerospace LVDT. 8,89 mm to 35,56 mm ]0.35 in to 1.4 in] stroke. 1 million hours min. MTBF. 17-4 PH stainless steel housing
Honeywell Single-Channel Aerospace Linear Variable Differential Transducers incorporate a pre-validated platform approach to ensure a wide variety of configurations and applications can be accommodated. Their rig-point position eliminates the need to shim during installation. With global engineering and application expertise, customers with a global footprint can rest assured that there is local support for new applications and troubleshooting.
Others
- Sum Voltage
- (V1+V2) shall be 4.45 VRMS min. to 5.54 VRMS max.
- Electrical Connector
- Pigtail (Flying Leads)
- EN2997YE01005MN
- Operating Temperature
- -55 °C to 240 °C [-67 °F to 464 °F]
- Altitude Sea Level
- to 55,000 ft
- Vibration
- 60 G @ 5 Hz to 2000 Hz
- Housing Material
- 17-4 PH stainless steel
- Dielectric Strength
- 1500 V RMS min. at 60 Hz
- Stroke Range
- 12,7 mm [0.50 in]
- 8,89 mm [0.35 in]
- 25,4 mm [1.0 in]
- Channels
- Single
- Weight
- 0.22 lb to 2.1 lb
- MTBF
- 1 million hours min.
- Mechanical Endurance
- 100,000 mechanical cycles (fully extended-fully retracted-fully extended) min.
- Mounting
- Flanged
- Threaded
- Accuracy
- ±0.5% of the full stroke gain from 0 % to 100 % of the LVDT stroke @ 21 °C [70 °F]
- Input Impedance
- 650 ohms min. @ 3000 Hz
- Output Impedance
- 2000 ohms max. @ 3000 Hz
- Life Requirements
- 1,000,000 hours min.
- Excitation
- 7.07 ±0.14 V RMS sinusoidal wave at 3000 Hz ±50 Hz
- Mechanical Stroke
- 0,254 mm [0.010 in] (in addition to electrical stroke)
- Insulation Resistance
- 100 megohms min. at 500 Vdc
- Probe Fitting
- 0.164-32 threaded
- Current Consumption
- 11 mA max.
Others
- Sum Voltage
- (V1+V2) shall be 4.45 VRMS min. to 5.54 VRMS max.
- Electrical Connector
- Pigtail (Flying Leads)
- EN2997YE01005MN
- Operating Temperature
- -55 °C to 240 °C [-67 °F to 464 °F]
- Altitude Sea Level
- to 55,000 ft
- Vibration
- 60 G @ 5 Hz to 2000 Hz
- Housing Material
- 17-4 PH stainless steel
- Dielectric Strength
- 1500 V RMS min. at 60 Hz
- Stroke Range
- 12,7 mm [0.50 in]
- 8,89 mm [0.35 in]
- 25,4 mm [1.0 in]
- Channels
- Single
- Weight
- 0.22 lb to 2.1 lb
- MTBF
- 1 million hours min.
- Mechanical Endurance
- 100,000 mechanical cycles (fully extended-fully retracted-fully extended) min.
- Mounting
- Flanged
- Threaded
- Accuracy
- ±0.5% of the full stroke gain from 0 % to 100 % of the LVDT stroke @ 21 °C [70 °F]
- Input Impedance
- 650 ohms min. @ 3000 Hz
- Output Impedance
- 2000 ohms max. @ 3000 Hz
- Life Requirements
- 1,000,000 hours min.
- Excitation
- 7.07 ±0.14 V RMS sinusoidal wave at 3000 Hz ±50 Hz
- Mechanical Stroke
- 0,254 mm [0.010 in] (in addition to electrical stroke)
- Insulation Resistance
- 100 megohms min. at 500 Vdc
- Probe Fitting
- 0.164-32 threaded
- Current Consumption
- 11 mA max.
- Sum Voltage : (V1+V2) shall be 4.45 VRMS min. to 5.54 VRMS max.
- Electrical Connector : Pigtail (Flying Leads)|EN2997YE01005MN
- Operating Temperature : -55 °C to 240 °C [-67 °F to 464 °F]
- Altitude Sea Level : to 55,000 ft
- Vibration : 60 G @ 5 Hz to 2000 Hz
- Housing Material : 17-4 PH stainless steel
- Dielectric Strength : 1500 V RMS min. at 60 Hz
- Stroke Range : 12,7 mm [0.50 in]|8,89 mm [0.35 in]|25,4 mm [1.0 in]
- Channels : Single
- Weight : 0.22 lb to 2.1 lb
- MTBF : 1 million hours min.
- Mechanical Endurance : 100,000 mechanical cycles (fully extended-fully retracted-fully extended) min.
- Mounting : Flanged|Threaded
- Accuracy : ±0.5% of the full stroke gain from 0 % to 100 % of the LVDT stroke @ 21 °C [70 °F]
- Input Impedance : 650 ohms min. @ 3000 Hz
- Output Impedance : 2000 ohms max. @ 3000 Hz
- Life Requirements : 1,000,000 hours min.
- Excitation : 7.07 ±0.14 V RMS sinusoidal wave at 3000 Hz ±50 Hz
- Mechanical Stroke : 0,254 mm [0.010 in] (in addition to electrical stroke)
- Insulation Resistance : 100 megohms min. at 500 Vdc
- Probe Fitting : 0.164-32 threaded
- Current Consumption : 11 mA max.