UHF 100-Frequency 2-Way Synchronising True Diversity Receiver
100 factory preset user-selectable UHF frequencies.
Advanced microprocessor control, excellent RF design with improved signal performance for interference free multi-channel operation.
Patented IrDA technology for 2-way sync between transmitter and receiver.
SCAN function automatically locates the next clean frequency.
More than 10-12 non interfering channels can be operated simultaneously within a selected 25MHz bandwidth.
Diversity design for high sensitivity, high selectivity, and high image/spurious rejections.
LCD display on the receiver shows selected frequency.
Antennas can be either rear or front mounted.
Anti-interference Pilotone control and RF noise squelch circuitries.
RF & AF LED indicators.
Balanced (XLR) x 1 / unbalanced (O6.3mm) x 1 audio outputs.
Half-rack metal chassis, mountable with optional mount kit
(PA-WRK-1 for 1 unit, PA-WRK-2 for 2 units).
Matching transmitters: HH6100, BP6100.
True diversity reception for best performance and reliability.
Receiver provides power for Parallel Audio antenna systems to enhance reception range and signal stability.
Guitar System:
Performer-100 Wireless Receiver
BP6100 Beltpack Transmitter
GC-12 Guitar Lead
Channel: Single
Chassis: EIA standard 19” 1/2U
Frequency range: UHF 520-675MHz (3 available bands)
Bandwidth: Up to 25MHz
Receiving mode: True Diversity
Peak deviation: ±40kHz
Channel sync: 2-way (receiver – transmitter)
Sensitivity: S/N > 80dBm at 10dBμV
S/N ratio: > 110dB (A)
T.H.D. : < 0.5% @ 1kHz
Frequency response: 50Hz – 18kHz
Receiving antenna: Rear Panel. Detachable
Preset channels: 100
Oscillation mode: PLL synthesised, frequency stability ≤± 0.005% (-10 – +60C)
Squelch: Pilotone & Noise-cancelling dual-squelch circuit
Audio output adjustment: Gain control circuit for adjustment of output volume
Output connector: Balanced XLR and unbalanced 6.3Ø
Power supply: 12V DC, 1.0A
Power consumption: 12W
Dimensions (mm): 200 (W) x 44 (H) x 150 (D)
Weight (kg): 0.63
Reviews
There are no reviews yet.