- Ideal for intermodulation panels, providing extra protection with their second harmonic filters, when physical space is at a premium or is constrained, and for providing extra isolation between two very close transmitters
- High isolation: minimizes intermodulation products
- Low loss: maximizes system performance
- Continuous power:
- Physical size and materials used maximizes the performance across the operating band
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Designed for compact, close frequency installations. Ideal for very closely spaced frequency transmitters
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Designed for compact, close frequency installations. Ideal for very closely spaced frequency transmitters
- Ideal for intermodulation panels, providing extra protection with their second harmonic filters, when physical space is at a premium or is constrained, and for providing extra isolation between two very close transmitters
- High isolation: minimizes intermodulation products
- Low loss: maximizes system performance
- Continuous power:
- Physical size and materials used maximizes the performance across the operating band
-
Designed for compact, close frequency installations. Ideal for very closely spaced frequency transmitters
- Ideal for intermodulation panels, providing extra protection with their second harmonic filters, when physical space is at a premium or is constrained, and for providing extra isolation between two very close transmitters
- High isolation: minimizes intermodulation products
- Low loss: maximizes system performance
- Continuous power:
- Physical size and materials used maximizes the performance across the operating band
-
Designed for compact, close frequency installations. Ideal for very closely spaced frequency transmitters
- Ideal for intermodulation panels, providing extra protection with their second harmonic filters, when physical space is at a premium or is constrained, and for providing extra isolation between two very close transmitters
- High isolation: minimizes intermodulation products
- Low loss: maximizes system performance
- Continuous power:
- Physical size and materials used maximizes the performance across the operating band
-
Designed for compact, close frequency installations. Ideal for very closely spaced frequency transmitters
- Ideal for intermodulation panels, providing extra protection with their second harmonic filters, when physical space is at a premium or is constrained, and for providing extra isolation between two very close transmitters
- High isolation: minimizes intermodulation products
- Low loss: maximizes system performance
- Continuous power:
- Physical size and materials used maximizes the performance across the operating band
-
Designed for compact, close frequency installations. Ideal for very closely spaced frequency transmitters
- Ideal for intermodulation panels, providing extra protection with their second harmonic filters, when physical space is at a premium or is constrained, and for providing extra isolation between two very close transmitters
- High isolation: minimizes intermodulation products
- Low loss: maximizes system performance
- Continuous power:
- Physical size and materials used maximizes the performance across the operating band
-
Designed for easy installation, reducing coaxial runs, and in-building applications with multi-band antennas
- Allows multiple bands to share the same transmission lines
- Available in VHF, UHF and 800/900 MHz bands
- Can be Tower-Mounted (TM), Rack-Mounted (RM) or stand alone
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Designed for easy installation, reducing coaxial runs, and in-building applications with multi-band antennas
- Allows multiple bands to share the same transmission lines
- Available in VHF, UHF and 800/900 MHz bands
- Can be Tower-Mounted (TM), Rack-Mounted (RM) or stand alone
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Bi-directional coupler, ideally suited for two-way communications systems
- Low insertion loss
- High isolation between ports
- Excellent VSWR
- Tri-band and other models are available and customizable.
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Designed for minimizing interference from adjacent channels and outside systems
- Temperature-compensated to ensure frequency stability
- High attenuation to minimize desense and interference from adjacent systems
- Silver-plated loops and tuning rods
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Designed for minimizing interference from adjacent channels and outside systems
- Temperature-compensated to ensure frequency stability
- High attenuation to minimize desense and interference from adjacent systems
- Silver-plated loops and tuning rods
-
Designed for minimizing interference from adjacent channels and outside systems
- Temperature-compensated to ensure frequency stability
- High attenuation to minimize desense and interference from adjacent systems
- Silver-plated loops and tuning rods
-
Designed for minimizing interference from adjacent channels and outside systems
- Temperature-compensated to ensure frequency stability
- High attenuation to minimize desense and interference from adjacent systems
- Silver-plated loops and tuning rods
-
Designed for minimizing interference from adjacent channels and outside systems
- Temperature-compensated to ensure frequency stability
- High attenuation to minimize desense and interference from adjacent systems
- Silver-plated loops and tuning rods
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Designed for flexible, space saving filter systems
- 4 types of racks:
- 19 inch standard racks
- X–racks
- Stack racks
- Wall-mount and cabinets
- 5 types of mounting hardware:
- Cabinet mount (CM)
- Wall mount (WM)
- Rack mount (RM)
- Tower mount (TM)
- Tray mount (TRM)
- Mounting hardware manufactured to your specifications available
- 4 types of racks:
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Dielectric resonator technology resulting in higher performance than standard RF cavities in a much smaller package
- Available for the 764-776, 851-869 and 935-941 MHz bands
- Designed for tight channel spacing
- Lowest insertion loss, high isolation for maximum coverage and reduced interference
- Easy field expandability with X-Pass technology - one channel at a time
- Compact, robust design for rapid installations, increased mobility and ease of maintenance
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Combines multiple receiver frequencies onto the same antenna
- A low noise amplifier provides gain across the frequency band
- Low noise figure and low intermodulation generation
- Features up to 16 ports (24 and 32 port versions are available)
- -30 dB signal sampler port that can also be used to inject a signal
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Dielectric resonator technology resulting in higher performance than standard RF cavities in a much smaller package
- Available for the 764-776, 851-869 and 935-941 MHz bands
- Designed for tight channel spacing
- Lowest insertion loss, high isolation for maximum coverage and reduced interference
- Star configuration
- Compact, robust design for rapid installations, increased mobility and ease of maintenance
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Designed for compact, close frequency installations. Ideal for very closely spaced frequency transmitters
- High isolation: minimizes intermodulation products
- Low loss: maximizes system performance
- Continuous power:
- Physical size and materials used maximizes the performance across the operating band
-
Ideal for combining multiple Rx frequencies onto the same antenna
- Available in 2, 4, 8, 12, 16 and 32
- Simple and cost-effective design
- Standard 19” Rack Mount (RM) or cavity-mounted (CM) versions
- Each unit consists of a power splitter and an RF amplifier.
- Plug-in Power Supply (PS) optional
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Designed for unconditionally stable performance in professional communications systems
- High gain, low noise
- Maximum performance with minimum noise
- Filtering on DC terminals
- Greater than 70dB attenuation from as low as 5 MHz to several GHz
- High gain, low noise
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Multilayer bonded PCB for high performance and compact design
- Low insertion loss
- Excellent return loss
- Compact dimensions saving space
- 3, 4.8, 6, 7, 10, 15, 20 and 30 dB values
- 200 Watts maximum main line power
- Integrated mounting bracket
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Ideal for compact high performance applications
- Designed for the combination of two frequencies that require extra isolation. Can also be used as efficient pre-selectors
- A six and an eight cavity configuration is also available for a higher level of isolation and selectivity
- Can be retuned in the field
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Ideal for compact high performance applications
- Designed for the combination of two frequencies that require extra isolation. Can also be used as efficient pre-selectors
- An eight cavity configuration is also available for a higher level of isolation and selectivity
- Can be retuned in the field
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Designed for quick and easy installations
- Designed for the combination of two frequencies requiring extra isolation. Can also be used as efficient pre-selectors
- Available in 4 or 6 cavity configurations
- Temperature compensated to ensure frequency stability
- High attenuation to minimize desense and interference from adjacent systems
- Adjustable loops: each cavity has a calibration index for easy field tuning
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Ideal for compact high performance applications
- Designed for the combination of two frequencies that require extra isolation. Can also be used as efficient pre-selectors
- An eight cavity configuration is also available for a higher level of isolation and selectivity
- Can be retuned in the field