Trek 40/15 High Voltage Amplifier
Advanced Energy’s Trek 40/15 high voltage amplifier features a high slew rate, wide bandwidth, and low noise operation. It’s optimal for various applications including electrostatic deflection, flame control, levitation, and precipitation.
• Output Voltage: 0 to ±40 kV DC or peak AC
• Output Current: 0 to ±15 mA DC or peak AC
• Slew Rate: Greater than 350 V/µs
• Large Signal Bandwidth: DC to greater than 1.4 kHz (2% distortion)
• DC Voltage Gain: 4000 V/V fixed
The DC-stable Trek® 40/15 high voltage power amplifier features an all-solid-state design, non-inverting configuration, and a fixed gain of 4000 V/V. It is protected against overvoltage and overcurrent conditions that can be generated by active loads or output short circuits to the ground. Precision voltage and current monitors provide low-voltage representations of the high-voltage output and load current for monitoring purposes or use as feedback signals in a closed-loop system.
Benefits
- Take advantage of low-output noise and ultra-accurate outputs
- Benefit from nearly maintenance-free operation and solid-state design
- Enable high accuracy thanks to a closed-loop system
- Drive capacitive loads via a four-quadrant output
- Safeguard equipment with short-circuit protection
Dimensions: 1239 mm H x 578 mm W 893 mm D (49” H x 22.8” W x 35” D)
Weight: 100 kg (220 lb)
HV Connector: Caton High Voltage Connector
BNC Connectors: Amplifier Input, Voltage Monitor, Current Monitor, Remote High Voltage ON/OFF, Out of Regulation Status, Fault/Trip Status
Temperature: 0°C to 40°C (32°F to 104°F)
Relative Humidity: To 75%, noncondensing
Altitude: To 1524 meters (5000 ft.)
- Graduated one-turn potentiometer can be used to optimize the AC response for various load parameters
- Current limit/trip status indicator and connector
- NIST-traceable calibration certificate provided with each unit
- DC-stable for programmable supply applications
- Local and remote high voltage turn on or off capabilities
- Dielectric studies
- Electron beam ion traps and ion sourcing
- Electrospinning
- Electrostatic deflection (including ion beam steering)
- Electrostatic flame control
- Electrostatic levitation
- Electrostatic precipitation
- High-voltage cable testing
- High-voltage component testing
-
Plasma studies (including dielectric barrier discharge)
