Multiband pentaplexer 700-800/ 900/ 1800/ 2100/ 2600 MHz 4.3-10 female DC all


SPINNER Combining Units for best radio frequency networks performance

Combining units are essential components in radio frequency networks, used to merge signals from multiple sources or split signals into multiple paths while maintaining signal integrity. All combiners work in bi-directional mode and can therefore be used to combine and split the transmitted and received signals.

The Multiband pentaplexer 700-800/ 900/ 1800/ 2100/ 2600 MHz 4.3-10 female DC all guarantees excellent, lossless mobile communication quality for use in in-building distributed antenna systems (DAS) or on mobile communication base stations outdoors.

A multiband combiner is designed to combine signals from multiple frequency bands into a single output. This enables the effective use of antenna systems by reducing the number of antennas needed, which is crucial in dense network environments or where space is at a premium. Multiband combiners facilitate the operation of different frequency bands on a single feedline, optimizing both system efficiency and performance by simplifying infrastructure and minimizing hardware requirements.

They are typically used in:

  • Co-Located Base Stations: In scenarios where multiple base stations are located close to each other (co-location), Multiband Combiners allow them to share a single antenna system.
  • Distributed Antenna Systems (DAS): For in-building coverage or large indoor spaces, Multiband Combiners combine signals from various operators into a unified signal for distribution.
  • Shared Infrastructure: Multiband Combiners enable cost-effective sharing of resources among different wireless service providers.

Critical characteristics are:

  • Isolation: High isolation between input ports prevents interference between combined signals.
  • Low Insertion Loss: Minimizing signal loss during combining ensures optimal network performance.
  • Wide Bandwidth Coverage: Multiband Combiners should support a broad range of frequencies to accommodate various wireless technologies.
  • Compact Design: Space efficiency is crucial, especially in indoor installations.
  • Robust Construction: Outdoor versions must withstand environmental conditions (temperature, humidity).

Benefits are:

  • Scalability: Multiband Combiners can adapt to changing network requirements without major modifications.
  • Cost-Effectiveness: Shared infrastructure reduces costs for operators and building owners.
  • Efficient spectrum utilization: by combining bands, multiband combiners optimize spectrum usage.
  • Quick deployment: easy installation speeds up network rollout.

A Pentaplexer has five ports and combines or separates signals from five different frequency bands. It multiplexes five bands into one port and is commonly found in more complex wireless communication systems where multiple network services operate simultaneously. They have the following advantages: Ultra-compact size, cost-effective, and ideal for space-constrained applications.

Outstanding RF characteristics, best possible passive intermodulation and VSWR

The Multiband pentaplexer 700-800/ 900/ 1800/ 2100/ 2600 MHz 4.3-10 female DC all enables you to transmit high-frequency signals reliably and flawlessly with optimum protection of your sensitive equipment in a power range up to 250 W (each input port; max. combined power < 500 W) with maximum passive intermodulation (IM3) of -155 dBc.

The protection class is IP 65.

The port path designation regarding main line and probe is as follows: Port 1, 2, 3, 4, 5: input, Port 6: output

It supports the use of the following frequency bands : 700, 800, 900, 1800, 2100, 2600

The 4.3-10 connector system was designed to meet the latest requirements in mobile communication in terms of size, robustness, performance, and other parameters. Its small footprint supports the use of smaller components, mitigates risks if equipment is assembled without due care, and delivers outstanding electrical performance.

RF characteristics

Number of interfaces:
Interface type:
4.3-10 female (50 Ω) per IEC 61169-54
Port / path designation:
Port 1, 2, 3, 4, 5: input
Port 6: output
Interface type remark:
long neck
Interface direction:
Input : output ratio:
5 : 1
Combiner type:
Multiband combiners
Mobile communication
Frequency range:
Port 1: 694 to 862 MHz
Port 2: 880 to 960 MHz
Port 3: 1710 to 1880 MHz
Port 4: 1920 to 2170 MHz
Port 5: 2500 to 2690 MHz
Frequency band:
1800, 2600, 700, 2100, 800, 900
Average power rating:
250 W (each input port; max. combined power < 500 W)
Surge Protection:
3 kA (10/350 µs pulse)
VSWR, max.:
Insertion loss max.:
Port 1, 2, 3, 4, 5 → Port 6: 0.5 dB
Isolation, min.:
50 dB
Passive intermodulation (IM3), max.:
-155 dBc
all inputs → output
max. 3 A, AISG signal (2176 MHz)
AISG Standard, 2.0, § 6.4

Mechanical characteristics

Degree of protection:
IP 65
Weight, approx.:
8.0 kg
461.0 mm
190.0 mm
53.0 mm
Dimensions remark:
dimensions without connectors and mounting kit

Environmental conditions

Environmental conditions:
ETSI EN 300019-1-1 Class 1.2
ETSI EN 300019-1-2 Class 2.3
ETSI EN 300019-1-4 Class 4.1E
Operating temperature:
-40 to +65 °C
Storage ambient temperature:
-40 to +85 °C
Storage relative humidity, max.:
-40 to +65 °C

Scope of delivery & accessories

Mounting accessoires:
part of delivery

Further remarks

Customs tariff number:



Product data sheet – 572680 – 572680-DS.pdf


Model – 572680 – iBwave VEX file – 572680-MS.vex