• Controls one Remote Control (RC) servo motor powered directly from the PC USB port.
• Step resolution of 0.1 degree
• Connects directly to a computer’s USB port

Replaced by the 1066 - PhidgetAdvancedServo 1-Motor.

• USB based controller that can control 4 Remote Control (RC) servo motors
• Step accuracy of 0.1 degrees
• Requires external power supply for powering motors 1, 2, and 3

Replaced by the 1061 - PhidgetAdvancedServo 8-Motor.

• 16 Digital Inputs sensing up to 30VDC
• 16 Digital Outputs controlling up to 30VDC
• LED indicators on all I/O channels

Replaced by the 1012 - PhidgetInterfaceKit 0/16/16.

• 16 Digital Inputs - with hardware noise filtering - sensing up to 30VDC
• 16 Digital Outputs controlling up to 30VDC
• LED indicators on all I/O channels

Replaced by the 1012 - PhidgetInterfaceKit 0/16/16.

• 8 Analog Inputs
• 8 Digital Inputs
• 8 Digital Outputs
• 2 Port USB Hub

Replaced by the 1019 - PhidgetInterfaceKit 8/8/8 w/6 Port Hub.

• 4 Relay Outputs for switching AC or DC power
• Rated at 250VAC, 10 Amps or 100VDC, 5 Amps
• Connects directly to a computer’s USB port

Replaced by the 1014 - PhidgetInterfaceKit 0/0/4.

• 4 Relay Outputs for switching AC or DC power
• Rated at 250VAC, 10 Amps or 100VDC, 5 Amps
• Connects directly to a computer’s USB port

Replaced by the 1014 - PhidgetInterfaceKit 0/0/4.

• Allows the digital control of 8 Double-Pole Double-Throw (DPDT) relay outputs
• Used to switch small signals
• Rated at 250VAC, or 2 Amps, for a maximum of 60 Watts
• Connects directly to a computer’s USB port

Replaced by the 1017 - PhidgetInterfaceKit 0/0/8.

• 8 Analog Inputs
• 8 Digital Inputs with hardware noise filtering
• 8 Digital Outputs
• Connects directly to a computer’s USB port

Replaced by the 1018 - PhidgetInterfaceKit 8/8/8.

• 8 Analog Inputs
• 8 Digital Inputs with hardware noise filtering
• 8 Digital Outputs
• Connects directly to a computer’s USB port

Replaced by the 1018 - PhidgetInterfaceKit 8/8/8.

• 8 Analog Inputs
• 8 Digital Inputs with hardware noise filtering
• 8 Digital Outputs
• On-board powered 6-port full-speed (12Mbit/s) USB hub

Replaced by the 1019 - PhidgetInterfaceKit 8/8/8 w/6 Port Hub.

• Reads tags brought within 3 inches of the reader
• Reads any tag with EM4102 protocol

Replaced by the 1023 - PhidgetRFID.

• Independent control of 64 Light Emitting Diodes
• Brightness control
• Requires an external 6 to 12VDC power supply
• Connects directly to a computer’s USB port

Replaced by the 1032 - PhidgetLED-64 Advanced.

• Independent control of 64 Light Emitting Diodes
• Voltage, Current and Brightness Control supports most types of indicators
• Ships with a 12VDC 2 Amps power supply
• Connects directly to a computer’s USB port

Replaced by the 1032 - PhidgetLED-64 Advanced.

• Infra Red thermometer for non contact temperature measurements
• Thermometer is Factory calibrated
• Temperature range of -70 to 380°C
• Connects directly to a computer's USB Port

Replaced by the 1045_1 - PhidgetTemperatureSensor IR.

• Reads up to 4 encoders simultaneously
• Time Resolution of 1 μs
• Includes 4 Digital Inputs for detecting the state of switches and sensors
• Connects directly to a USB port on your PC

Replaced by the 1047_1 - PhidgetEncoder HighSpeed 4-Input.

• 3-Axis, 5g Accelerometer
• Internally calibrated at factory
• High Sampling speed of up to 1000 samples per second
• Connects directly to a computer's USB Port

Replaced by the 1043 - PhidgetSpatial 0/0/3 High Resolution.

• Outputs temperature in degrees Celsius
• Connects directly to a computer’s USB port

Replaced by the 1051 - PhidgetTemperatureSensor 1-Input.

• Supports J, K, E and T-type thermocouples
• Measures temperatures from -200°C to +1250°C when using a K-Type thermocouple
• Connects directly to a computer’s USB port

Replaced by the 1051 - PhidgetTemperatureSensor 1-Input.

• Dual axis accelerometer
• Measures ± 5 gravities (± 49.0 m/s2) change per axis.
• Measure both dynamic acceleration (vibration) and static acceleration (gravity or tilt).
• Connects directly to a computer’s USB port

Replaced by the 1043 - PhidgetSpatial Precision 0/0/3.

• Connects to any typical two-bit optical encoder.
• Can be used as an accurate human input device.
• Connects directly to a computer’s USB port.

Replaced by the 1057 - PhidgetEncoderHighSpeed.

• Connects to any typical two-bit optical encoder.
• Returns up to 500,000 counts per second.
• Can be used as an accurate human input device.
• Connects directly to a computer’s USB port.

Replaced by the 1057 - PhidgetEncoderHighSpeed.

• Connects to any typical Ph or ORP Electrode through a common BNC connection
• Measures the pH level of a sample
• Measures the Oxygen Reduction Potential of a sample
• Connects directly to a computer’s USB port

Replaced by the 1130 - pH/ORP Adapter.

• Measures ±3 gravities (± 29.4m/s2) change per axis
• Measure both dynamic acceleration (vibration) and static acceleration (gravity or tilt)
• Connects directly to a computer’s USB port

Replaced by the 1043 – PhidgetSpatial Precision 0/0/3

• Control two low-voltage DC motors independently for direction, velocity and acceleration
• The 1060 provides overcurrent protection
• Includes four digital inputs used to convey the state of limit switches, push buttons, relays, etc.
• Connects directly to a computer’s USB port

Replaced by the 1065 – PhidgetMotorControl 1-Motor

• The PhidgetStepper Unipolar 4-Motor allows you to control the position, velocity, and acceleration of up to 4 unipolar stepper motors.
• The 1062 can be used in applications that require precise positioning and continuous rotation, at low cost.
• Requires an external 5 to 12VDC power supply.
• Connects directly to a computer’s USB port.

Replaced by the 1062_1 - PhidgetStepper Unipolar 4-Motor.

• Controls the position, velocity, and acceleration of 1 bipolar stepper motor.
• Requires an external 9 to 30VDC power supply
• Provides very precise positioning
• Connects directly to a computer’s USB port.

Replaced by the 1063 - PhidgetStepperBipolar 1-Motor.

• Control the velocity and acceleration of up to two high-current DC motors
• Requires an external 6 to 15VDC external power supply
• USB port is isolated from the motor control outputs
• Connects directly to a computer’s USB port.

Replaced by the 1064 - PhidgetMotorControlHC.

• Control the position, velocity, and acceleration of one RC servo motor.
• Powered solely by the USB cable – no additional power source is required!
• High resolution - 125 steps per degree.
• Powers servo motors of up to 450 mA.
• Connects directly to a computer’s USB port

Replaced by the 1066_1 - PhidgetAdvancedServo 1-Motor.

• Fully functional single board computer running Linux with Java and C libraries. You can compile your own programs or customize the OS, and run it on the onboard memory.
• Easy to use configuration interface.
• 4 USB full-speed ports with built in support for web cameras and Phidget USB devices.
• Integrated PhidgetInterfaceKit 8/8/8.
• Ethernet port and included USB Wireless networking adapter. Remotely use attached Phidgets from another computer anywhere over the network.

Replaced by the 1072 – PhidgetSBC2.

• Can detect the presence of a highly reflective object at 10cm, for less reflective objects (like hands) the distance is about 5cm.
• The sensor is Ratiometric

Replaced by the 1103 - IR Reflective Sensor 10cm.

• Uses a Standard CdS photocell resistance that varies with the amount of light.
• The sensor is Ratiometric.

Replaced by the 1127 - Precision Light Sensor.

• Measures Relative Humidity from 10% to 95%
• The sensor is Ratiometric.

Replaced by the 1125 - Humidity/Temperature Sensor.

• Capacitive touch sensor that can detect a touch through plastic, glass, or paper.
• We recommend a material thickness of no more than 1/8”.
• The sensor is Ratiometric.

The 1110 has been replaced by the 1129 – Touch Sensor but is still included in the following kits: 2004, 2006, and 42001.

Please note that the 1129 has significant differences from the 1110. Please refer to the table below for more information.

• Linear potentiometer - the resistance varies linearly with the position of the slider.
• Can be used as human input or as position feedback in a system.
• The sensor is Ratiometric.

Replaced by the 1112 - Slider 60.

• Measures ambient temperature from –40°C to +125°C.
• The sensor is NOT Ratiometric.

Replaced by the 1124 - Precision Temperature Sensor.

• Measures DC voltages from -30 to +30 Volts.
• The sensor is NOT Ratiometric

Replaced by the 1135 - Precision Voltage Sensor.

• Measures alternating current up to 50Amps and direct current from -50Amps to +50Amps.
• Dual outputs allow the user to measure both the AC and DC components of complex current waveforms separately.
• The sensor is Ratiometric.

Replaced by the:
3502 - i-Snail-VC-50 Current Sensor 50Amp (for AC only), or the 1122 - 30Amp Current Sensor AC/DC. (for AC or DC)

• Measures alternating current up to 20Amps and direct current from -20Amps to +20Amps.
• Dual outputs allow the user to measure both the AC and DC components of complex current waveforms separately.
• The sensor is Ratiometric.

Replaced by the 1122 - 30Amp Current Sensor AC/DC.

• Measures DC voltages from -30 to +30 Volts with a typical error of ±100mVolts.
• The sensor is NOT Ratiometric.

Replaced by the 1135 – Precision Voltage Sensor

• Measures human perceptible light level in lux
• Measures from 1 lux to 1000 lux
• Connects to any device with an Analog Input.

• Capacitive touch sensor that can detect a touch through plastic, glass, or paper.
• We recommend a material thickness of up to 1/2”.
• The sensor can be attached to metallic objects to allow for a larger touch pad.
• Connects to any device with an Analog Input.

The 1129_0 has been replaced by the 1129_1 (different sensor chip). The product functionality remains the same.

• 2-line by 20-character LCD Blue Display
• 8 Analog Inputs
• 8 Digital Inputs
• 8 Digital Outputs

Replaced by the 1203 - PhidgetTextLCD 20X2:White:Integrated PhidgetInterfaceKit 8/8/8.

• 2-line by 20-character LCD White Display
• 8 Analog Inputs
• 8 Digital Inputs
• 8 Digital Outputs

Replaced by the 1203 - PhidgetTextLCD 20X2:White:Integrated PhidgetInterfaceKit 8/8/8.

• 2-line by 20-character LCD White Display
• 8 Analog Inputs
• 8 Digital Inputs
• 8 Digital Outputs

Replaced by the 1203 - PhidgetTextLCD 20X2:White:Integrated PhidgetInterfaceKit 8/8/8.

• All you need for reading RFID tags
• PhidgetRFID has a range of approximately 3 inches

Replaced by the 2002_1 - PhidgetRFID Kit

• All you need for reading RFID tags
• PhidgetRFID has a range of approximately 3 inches

• Our most popular phidgets bundled together
• An excellent kit to get started

Replaced by the 2003_3 - Phidget Starter Kit #1

• Our most popular phidgets bundled together
• An excellent kit to get started

• This is a kit you won't grow out of
• We have put together our most popular products

Replaced by the 2004_3 – Phidget Starter Kit #2

• This is a kit you won't grow out of
• We have put together our most popular products

Replaced by the 2004_4 - Phidget Starter Kit #2

• This is a kit you won't grow out of
• We have put together our most popular products

• Cable length: 180cm (72”)

Replaced by the 3028_0 - USB Cable 180cm 24AWG.

• General Purpose Power Supply
• North American Style Plug
• Center Positive Polarity

Replaced by the 3024_0 - Power Supply 12VDC 2.0A - US.

• EM4102 protocol
• 125kHz Frequency
• Passive tag, Read Only
• Typical read distance: 6cm

Replaced by the 3911 - RFID Tag - 30mm Disc Black

• EM4102 protocol
• 125kHz Frequency
• Passive tag, Read Only
• Typical read distance: 7cm

• Cable length: 30cm (12”)
• 24 AWG copper
• Includes common mode choke/filter

Replaced by the 3017_1 - Mini-USB Cable 28cm 24AWG.

• The 3051 contains 2 relays for switching AC or DC power.
• The relays are Single Pole Double Throw (SPDT)
• The relays can switch up to 240 V AC at 10 Amps and 100 V DC at 5 Amps.

Replaced by the 3051 - Dual Relay Board.

• Switches up to 2.5 Amps at up to 40 Volts DC, or 28 Volts AC.
• Can be used to control larger loads and devices like AC or DC motors, electromagnets, solenoids, and incandescent light bulbs.
• Connects to any device with a Digital Output.

Replaced by the 3052_1 - SSR Relay Board 2.5A.

• High Torque, Low Speed
• Motor Length (including Gearbox): 113mm
• Shaft Diameter: 8mm
• Reduction Ratio: 51
• Rated speed: 49rpm
• Rated Torque: 0.65N.m

Replaced by the 3267 - 12V/6.6Kg-cm/49RPM 51:1 DC Gear Motor.

• Highest Torque, Lowest Speed
• Motor Length (including Gearbox): 113mm
• Shaft Diameter: 8mm
• Reduction Ratio: 139:1
• Rated speed: 18 rpm
• Rated Torque: 1.7N.m

Replaced by the 3268 - 12V/17.3Kg-cm/18RPM 139:1 DC Gear Motor.

• Good Torque, Good Speed
• Motor Length (including Gearbox): 124mm
• Shaft Diameter: 8mm
• Reduction Ratio: 14
• Rated speed: 172rpm
• Rated Torque: 0.5N.m

Replaced approximately by the:

• 3259 - 12V/2.4Kg-cm/202RPM 18:1 DC Gear Motor
• 3264 - 12V/8.4Kg-cm/28RPM 139:1 DC Gear Motor
• 3267 - 12V/6.6Kg-cm/49RPM 51:1 DC Gear Motor
• 3269 - 24V/5.1Kg-cm/588RPM 4.3:1 DC Gear Motor

• High Speed, Good Torque
• US Digital E4P Encoder Attached
• Shaft Diameter: 12mm
• 4 ¹/₄ : 1 Gear Reduction
• Rated speed: 588RPM
• Rated Torque: 5.1 Kg-cm

Replaced by the 3269_1 – 24V/5.1Kg-cm/588RPM 4.25:1 DC Gear Motor w/Encoder

• 20:1 gearbox, High Torque
• 1.8° Step Angle
• Gearbox withstands 30 kg-cm holding torque @ 2.8A
• NEMA-23 Bipolar 4-wire
• Maximum speed of 30 RPM @ 24V (with 1063 Motor Controller)

Replaced by the 3318 - 42BYGH40(M)-160-4A NEMA 17 Bipolar 26:1 Planetary Gearbox Stepper.

• 5 ²/₁₁ : 1 Planetary Gearbox, Good Torque and Good Speed
• 0.35° Step Angle
• Gearbox Motor can produce 24.86 kg-cm holding torque @ 2.5A
• NEMA-17 Bipolar 4-wire
• 115 RPM @ 12V max speed (with 1063 Motor Controller)

Replaced by the 3317 – 42BYGH40(M)-160-4A NEMA 17 Bipolar 5.18:1 Planetary Gearbox Stepper

• 26 ¹⁰³/₁₂₁ : 1 Planetary Gearbox, High Torque
• 0.067° Step Angle
• Gearbox rated for sustained torque of 40 kg-cm
• NEMA-17 Bipolar 4-wire
• Maximum Speed of 23 RPM @ 12V (with 1063 Motor Controller)

Replaced by the 3318 – 42BYGH40(M)-160-4A NEMA 17 Bipolar 26:1 Planetary Gearbox Stepper

• 99 ¹⁰⁴⁴/₂₀₅₇ : 1 Planetary Gearbox, Very High Torque, High Resolution
• 0.018° Step Angle
• Gearbox rated for sustained torque of 50 kg-cm
• NEMA-17 Bipolar 4-wire
• Maximum speed of 6 RPM @ 12V (with 1063 Motor Controller)

Replaced by the 3319 – 42BYGH40(M)-160-4A NEMA 17 Bipolar 99.55:1 Planetary Gearbox Stepper

• 5 ²/₁₁ : 1 Planetary Gearbox, Good Torque and Good Speed
• 0.35° Step Angle
• Gearbox Motor can produce 16.78 kg-cm holding torque @ 1.6A
• NEMA-17 Bipolar 4-wire
• Maximum Speed of 115 RPM @ 12V (with 1063 Motor Controller)

Replaced by the 3317 - 42STH38-1684A NEMA 17 Bipolar 5.18:1 Planetary Gearbox Stepper.

• 26 ¹⁰³/₁₂₁ : 1 Planetary Gearbox, High Torque
• 0.067° Step Angle
• Gearbox rated for sustained torque of 30 kg-cm
• NEMA-17 Bipolar 4-wire
• Maximum Speed of 22 RPM @ 12V (with 1063 Motor Controller)

Replaced by the 3318_1 - 42STH38-1684A NEMA 17 Bipolar 26.85:1 Planetary Gearbox Stepper.

• 99 ¹⁰⁴⁴/₂₀₅₇ : 1 Planetary Gearbox, High Torque
• 0.02° Step Angle
• Gearbox rated for sustained torque of 40 kg-cm
• NEMA-17 Bipolar 4-wire
• Maximum Speed of 6.2 RPM @ 12V (with 1063 Motor Controller)

Replaced by the 3319_1 - 42STH38-1684A NEMA 17 Bipolar 99.51:1 Planetary Gearbox Stepper.

• Fits Board Revision 0
• Protects your board
• Easy to Assemble
• Material: Clear Acrylic
• All you need is a small Phillips screwdriver

Replaced by the 3800_1 - Acrylic Enclosure for the 1002

• Fits Board Revision 2
• Protects your board
• Easy to Assemble
• Material: Clear Acrylic
• All you need is a small Phillips screwdriver

Replaced by the 3801_1 - Acrylic Enclosure for the 1012

• Fits Board Revision 2
• Protects your board
• Easy to Assemble
• Material: Clear Acrylic
• All you need is a small Phillips screwdriver

Replaced by the 3802_1 - Acrylic Enclosure for the 1014

• Fits Board Revision 1
• Protects your board
• Easy to Assemble
• Material: Clear Acrylic
• All you need is a small Phillips screwdriver

Replaced by the 3803_1 - Acrylic Enclosure for the 1017

• Fits Board Revision 2
• Protects your board
• Easy to Assemble
• Material: Clear Acrylic
• All you need is a small Phillips screwdriver

Replaced by the 3804_1 - Acrylic Enclosure for the 1018

• Fits Board Revision 1
• Protects your board
• Easy to Assemble
• Material: Clear Acrylic
• All you need is a small Phillips screwdriver

Replaced by the 3805_1 - Acrylic Enclosure for the 1023

• Fits Board Revision 1
• Protects your board
• Easy to Assemble
• Material: Clear Acrylic
• All you need is a small Phillips screwdriver

• Fits Board Revision 0
• Protects your board
• Easy to Assemble
• Material: Clear Acrylic
• All you need is a small Phillips screwdriver

Replaced by the 3808_1 - Acrylic Enclosure for the 1046

• Fits Board Revision 0
• Protects your board
• Easy to Assemble
• Material: Clear Acrylic
• All you need is a small Phillips screwdriver

Replaced by the 3810_1 - Acrylic Enclosure for the 1048

• Fits Board Revision 0
• Protects your board
• Easy to Assemble
• Material: Clear Acrylic
• All you need is a small Phillips screwdriver

Replaced by the 3811_1 - Acrylic Enclosure for Spatials

• Fits Board Revision 0
• Protects your board
• Easy to Assemble
• Material: Clear Acrylic
• All you need is a small Phillips screwdriver

Replaced by the 3817_1 - Acrylic Enclosure for the 1072

• Fits Board Revision 1
• Protects your board
• Easy to Assemble
• Material: Clear Acrylic
• All you need is a small Phillips screwdriver

Replaced by the 3820_1 - Acrylic Enclosure for the 3051

• Fits Board Revision 0
• Protects your board
• Easy to Assemble
• Material: Clear Acrylic
• All you need is a small Phillips screwdriver

Replaced by the 3821_1 - Acrylic Enclosure for the 3052

• EM4102 protocol
• 125kHz Frequency
• Passive tag, Read Only
• Typical read distance: 5cm