- Trusted Seller
Stanford Research Systems SR570
- Manufacturer: Stanford Research
- Model: SR570
Low-Noise Current Preamplifier Bandwidth: 1.00MHz | Gain [v/a]: 1x10^12 max. gain | Input noise: 5 fA/Hz^1/2
New Smyrna Beach, FL - Trusted Seller
Stanford Research Systems SR554
- Manufacturer: Stanford Research
- Model: SR554
- High frequency limit: 0.0 GHz
Transformer Preamplifier High end frequency limit: 40.0kHz | Gain: x100, x500 | Noise figure: 1 dB
New Smyrna Beach, FL - Trusted Seller
Stanford Research Systems SIM914
- Manufacturer: Stanford Research
- Model: SIM914
- High frequency limit: 0.35 GHz
DC to 350 MHz bandwidth Two independent amplifier channels Voltage gain of 5 (14 dB) per channel 3 ns overload recovery Excellent phase linearity BJT Voltage Preamplifier
New Smyrna Beach, FL - Trusted Seller
Stanford Research Systems SIM910
- Manufacturer: Stanford Research
- Model: SIM910
- High frequency limit: 0.0 GHz
Low output noise 1 MHz bandwidth Selectable gain from 1 to 100 AC or DC coupled Differential or single-ended input 85 dB CMRR Remote interface JFET Voltage Preamplifier
New Smyrna Beach, FL - Trusted Seller
Stanford Research Systems SIM911
- Manufacturer: Stanford Research
- Model: SIM911
- High frequency limit: 0.0 GHz
Low output noise 1 MHz bandwidth Selectable gain from 1 to 100 AC or DC coupled Differential or single-ended input 85 dB CMRR Remote interface BJT Voltage Preamplifier
New Smyrna Beach, FL - Trusted Seller
Stanford Research Systems SR552
- Manufacturer: Stanford Research
- Model: SR552
- High frequency limit: 0.0 GHz
Voltage Preamplifier for Lock-In High end frequency limit: 100.0kHz | Gain: N/A | Noise figure: N/A
New Smyrna Beach, FL - Trusted Seller
Stanford Research Systems SR550
- Manufacturer: Stanford Research
- Model: SR550
- High frequency limit: 0.0 GHz
Low noise FET input preamplifier High end frequency limit: 100.0kHz | Gain: N/A | Noise figure: N/A
New Smyrna Beach, FL - Trusted Seller
Stanford Research Systems SR560
- Manufacturer: Stanford Research
- Model: SR560
- High frequency limit: 0.0 GHz
Low Noise Voltage Preamplifier High end frequency limit: 1.0MHz | Gain: N/A | Noise figure: N/A
New Smyrna Beach, FL - Trusted Seller
Stanford Research Systems SR445A
- Manufacturer: Stanford Research
- Model: SR445A
- High frequency limit: 0.35 GHz
Quad 350 MHz Preamplifier High end frequency limit: 350.0MHz | Gain: x5, x25, x125 | Noise figure: N/A
New Smyrna Beach, FL - Trusted Seller
Stanford Research Systems SR240A
- Manufacturer: Stanford Research
- Model: SR240A
- High frequency limit: 0.35 GHz
DC to 350 MHz Preamplifier High end frequency limit: 350.0MHz | Gain: 5 | Noise figure: N/A
New Smyrna Beach, FL 
Stanford Research SR510
- Manufacturer: Stanford Research
Stanford Research SR510 Details Stanford Research SR510 The SR510 and SR530 are analog lock-in amplifiers which can measure AC signals as small as nanovolts in the presence of much larger noise levels. Both the s...
Lake Mary, FL
Stanford Research SR850
- Manufacturer: Stanford Research
Stanford Research SR850 Details Stanford Research SR850 SR850 — 100 kHz DSP lock-in amplifier The SR850 is a digital lock-in amplifier based on an innovative DSP (Digital Signal Processing) architecture. The SR85...
Lake Mary, FL
Stanford Research SR844
- Manufacturer: Stanford Research
Stanford Research SR844 Details Stanford Research SR844 200 MHz lock-in amplifier Frequency range 25 kHz to 200 MHz and up to 80 dB of drift-free dynamic reserve. Stanford Research SR844 datasheet & specifications
Lake Mary, FL
Stanford Research SR530
- Manufacturer: Stanford Research
Stanford Research SR530 Details Stanford Research SR530 The SR510 and SR530 are analog lock-in amplifiers which can measure AC signals as small as nanovolts in the presence of much larger noise levels. Both the s...
Lake Mary, FL
Stanford Research SR830
- Manufacturer: Stanford Research
Stanford Research SR830 Details Stanford Research SR830 The SR810 Lock-In Amplifier and SR830 Lock-In Amplifier provide high performance at a reasonable cost. The SR830 simultaneously displays the magnitude and p...
Lake Mary, FL
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