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dmxbpm1


Optimized for electron/positron Storage Rings
1 µm X and Y resolution
Handles > 75 dB beam intensity range
Each button sampled up to 10’000 times per second


The Beam Position Monitor (BPM) is an electronics module with superior performance in a very small volume
On-board microstrip filters eliminate the need for costly tubular filters
GaAs switches provide superior button-to-button isolation and low insertion loss




dmxbpm2
    On-board microstrip filters eliminate the need for costly tubular filters
    GaAs switches provide superior button-to-button isolation and low insertion loss
    On-board synthesized local oscillator  eliminates the   problem of external oscillator signal distribution with power splitters
    Automatic Gain Control range >90 dB provides optimum level for demodulator, independent of beam intensity, number of bunches
    GaAs switches provide superior button-to-button isolation and low insertion loss
    On-board synthesized local oscillator  eliminates the   problem of external oscillator signal distribution with power splitters
    Automatic Gain Control range >90 dB provides optimum level for demodulator, independent of beam intensity, number of bunches
    Phase-locked synchronous demodulation gives high linearity and noise suppression
    Button signal range -70 dBm to +5 dBm at selected harmonic, any phase error tolerated
    X and Y output +/- 10V
    Single button sampling option gives first turn / single turn capability
    RF-shielded chassis and accessories, see Accessories

dmxbpm3 

Original concept patented by John W. Bittner and Richard W. Biscardi , U.S. Patent ,001,416 (1991) Bitter et al National Synchrotron Light Source (NSLS) at Brookhaven National Laboratory. Our circuit is based on Jim Hinkson's design for the Advanced Light Source (ALS) at Lawrence Berkeley Laboratory.