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Vernier Instrumentation Amplifier
Order code: INA-BTA
VERNIER INSTRUMENTATION AMPLIFIER
Vernier's Instrumentation Amplifier can be used to connect a wide variety of measurement equipment to a Vernier interface and electronically collect, store and analyze the data.
The Instrumentation Amplifier monitors voltages from 20mV to 1V (DC or AC). It has several switch settings to allow the best gain to be selected and includes auto-ID functionality for each of the six ranges. Input bandwidth of 10kHz allows the capture of higher frequency signals. It is typically used to amplify the chart recorder or analog output of any instrument, such as a third-party gas chromatograph.
Requirements:
This sensor requires suitable software and an interface such as one of the Vernier LabQuest variations or Vernier Go-Link.
For comprehensive details of the possible sensor/interface/software combinations see the Compatibility Guide link below.
Specifications:
• Gain settings: 150, 75, 7.5, 15, 3 and 1.5 ±5%
• Linearity: 1%
• Power: 2.5mA @ 5V DC
• Frequency Response: 0-10kHz (f3dB)
• Impedance: 1MΩ to ground
• Range settings: 0-20mV, 0-200mV, 0-1V, ±20mV, ±200mV, ±1V
| User Manual | Vernier Instrument Amplifier | ||
Educational use only:
Vernier and Kidwind products are designed for educational use. They are not appropriate for industrial, medical or commercial applications. Details
Warranty
- Warranty: 5 year limited warranty
Dimensions- Package size (HxWxD): 57x89x178mm
- Packed weight: 160g
Last edited 23rd Jan 2024
This product is used in teaching these Australian Curriculum codes:
ACSPH110 - Gravity and electromagnetism - Electromagnetism - A changing magnetic flux induces a potential difference; this process of electromagnetic induction is used in stepup and stepdown transformers, DC and AC generators, and AC induction motors
ACSPH111 - Gravity and electromagnetism - Electromagnetism - Conservation of energy, expressed as Lenz’s Law of electromagnetic induction, is used to determine the direction of induced current
ACSPH106 - Gravity and electromagnetism - Electromagnetism - Currentcarrying wires are surrounded by magnetic fields; these fields are utilised in solenoids and electromagnets
ACSPH109 - Gravity and electromagnetism - Electromagnetism - Magnetic flux is defined in terms of magnetic flux density and area
ACSPH108 - Gravity and electromagnetism - Electromagnetism - Magnets, magnetic materials, moving charges and currentcarrying wires experience a force in a magnetic field; this force is utilised in DC electric motors
ACSPH107 - Gravity and electromagnetism - Electromagnetism - The strength of the magnetic field produced by a current is called the magnetic flux density
Click a curriculum code to see other products that relate.
| Works with: | From |
| LQ3 - Vernier LabQuest 3 Data Logger and Interface | $972.00 |
| LABQ2 - Vernier LabQuest 2 Data Logger and Interface | $835.00 |
| LQ-MINI - Vernier LabQuest Mini Data Logger Interface | $455.00 |
| GA4 - Vernier Graphical Analysis | $0.00 |
| LP-E - Vernier Logger Pro 3 Software Electronic Version | $666.00 |
| GAP-1Y - Vernier Graphical Analysis Pro 1 Year | $331.00 |
| GO-LINK - Vernier Go!Link Data Logger Interface with Logger Lite Software | $180.00 |
| BTA-NXT - Vernier NXT Sensor Adapter | $89.00 |
| EZ-LINK - Vernier Easy Link | $190.00 |
| BT-ARD - Vernier Arduino Interface Shield | $70.00 |
| Similar Products: | From |
| VP-BTA - Vernier Voltage Probe | $34.00 |
| DVP-BTA - Vernier Differential Voltage Probe | $118.00 |
Documents: Catalogue | Vernier Catalogue K-12 | Catalogue | Vernier Catalogue Uni | Catalogue | May 2024 Web Catalogue | Compatibility Guide | Sensor-Interface-Software Requirements (external link) | User Manual | Vernier Instrument Amplifier | | |||||||||||
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