Advantech SSPA/ SSPB manual Technical Specifications 60W 80W 100W, 150W 200W

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C-Band Hub-mount SSPA/ SSPB

Technical Specifications

60W

80W

100W

125W

150W

200W

250W

Electrical Characteristics

 

 

 

 

 

 

 

Availability in this series

 

 

 

 

 

 

 

CS, CR

CL,CP,CI,CX

Note 1

Note 1

Output power (PSAT)

+48 dBm

+49 dBm

+50 dBm

+51 dBm

+52 dBm

53 dBm

53 dBm

Output power (P1dB) min.

+47 dBm

+48 dBm

+49 dBm

+50 dBm

+51 dBm

52 dBm

53 dBm

Power gain @ maximum gain setting

56 dB min

 

60 dB min

 

65

65

Operating frequency range

See table A on front page

 

 

 

 

 

Max input power without damage

+10 dBm

 

 

 

 

 

 

Gain slope

0.6 dB max over 40 MHz

 

 

 

 

 

Gain flatness over 600 MHz

±1.0 dB max

 

 

 

 

 

Gain variation over temperature

±1.5 dB over full operating temperature range

 

 

 

Gain variation over 24 hours

±0.25 dB max at constant temperature & drive level

 

 

 

Gain adjustment range

20 dB min (0.1 dB resolution)

 

 

 

 

Input return loss

18 dB

 

 

 

 

 

 

Output return loss

19 dB

 

 

 

 

 

 

Noise power density

-70 dBm/Hz max in TX band

 

 

 

 

 

-150 dBm/Hz max in 3.4 –4.2 GHz RX band

 

 

 

Spurious at rated power

-65 dBc max

 

 

 

 

 

Harmonics at rated power

-60 dBc max

 

 

 

 

 

AM/PM conversion at rated power

2.5 /dB max (at P1dB),

 

 

 

 

 

 

1°/dB max. at 3 dB back-off

 

 

 

 

Third order IMD (2 tones 5 MHz apart)

-26 dBc max at 3 dB total back-off from rated P1dB

 

 

 

Group delay

Linear:

0.02 nsec/MHz max.

 

 

 

 

 

Parabolic: 0.003 nsec/MHz2 max.

 

 

 

 

 

Ripple:

1.0 nsec p-p max.

 

 

 

 

Residual AM

0-10 kHz

 

-45 dBc

 

 

 

 

(F* - frequency in kHz)

10 kHz - 500 kHz

-20 (1.25+log F*) dBc

 

 

 

 

500 kHz - 1 MHz

-80 dBc

 

 

 

 

Power Requirements

 

 

 

 

 

 

 

AC input voltage

110/220 VAC auto ranging (47-63 Hz)

 

 

 

 

Power consumption (nominal)

490W

550W

630W

710W

800W

950W

1100

Mechanical Characteristics

 

 

 

 

 

 

 

Dimensions (L x W x H)

18.50” x 9.80” x 9.21” (46.99 x 24.89 x 23.39 cm)

 

 

 

Weight (with mounting frame)

32 kg (70 lbs)

 

 

 

 

 

Interfaces: RF input

Type N (Female)

Redundancy

MS3112E14-12P

RF output CPR137 contact

Output sample port

Type N (Female)

Discrete port

MS3112E16-26P

(for CL series - CPR187)

AC Line

MS3102R16-10P

RS-485

MS3112E10-6P

 

Environmental Conditions

 

 

 

Temperature

Operating

-30

C to +55

C Option 1: -40 C to +55 C; option 2: -50 C to +50 C

 

Storage

-55

C to +85

C

Humidity

 

100%, condensing (2” rain/hour)

Altitude

 

10,000’ AMSL, derated 2°C/1,000’ from AMSL

Note 1: Please refer AWMA-4000C®product datasheet

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EUROPE

SOUTH AMERICA

An ISO 9001 : 2008 Company

USA

UNITED KINGDOM

BRAZIL

 

Tel: + 1 703 788-6882

Tel: +44 1480 357 600

Tel: +55 11 3054 5701

 

Fax: +1 703 788-6511

Fax: +44 1480 357 601

Fax: +55 11 5041 4026

 

info.usa@advantechwireless.com

info.uk@advantechwireless.com

info.brazil@advantechwireless.com

 

CANADA

RUSSIA & CIS

ARGENTINA

 

Tel: +1 514 420-0045

Tel: +7 495 967 1859

Tel: +54 11 4731 1034

Ref.: PB-AWMA-C-60-250-11025

Fax: +1 514 420-0073

Fax: +7 495 967 30 24

Cel: +54 911 4492 5601

info.canada@advantechwireless.com

info.russia@advantechwireless.com

info.argentina@advantechwireless.com

 

 

 

 

www.advantechwireless.com

 

Specifications are subject to change without prior notice

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Contents Overview FeaturesAccessories ApplicationTechnical Specifications 60W 80W 100W 150W 200W

SSPA/ SSPB specifications

Advantech, a leader in embedded computing and automation solutions, has developed the SSPA (Smart Safe Power Amplifier) and SSPB (Smart Safe Power Block) series as a part of their commitment to providing high-performance, efficient power solutions for various industrial applications. These products are designed to cater to the growing demand for reliable amplification and power management in critical environments, including telecommunications, defense, and broadcasting.

The SSPA series is engineered to deliver high linearity and efficiency, making it ideal for applications requiring robust signal amplification. With frequencies up to 18 GHz, these amplifiers can handle various signals with ease, ensuring optimal performance in demanding environments. The SSPA is particularly noted for its lightweight design, enabling ease of integration into existing systems without adding significant weight or requiring extensive modifications.

On the other hand, the SSPB series focuses on providing power block solutions that combine robustness with advanced control features. These blocks are capable of delivering reliable power under varying load conditions while ensuring system stability. The SSPB is equipped with built-in thermal protection and current limiting features, safeguarding both the device and connected systems from potential damage due to overheating or overload situations.

Both the SSPA and SSPB utilize advanced GaN (Gallium Nitride) technology, which offers superior efficiency and performance compared to traditional silicon-based components. This technology enables the devices to operate at higher frequencies and deliver greater power density, ultimately contributing to reduced energy consumption. Moreover, the compact design of these devices makes them suitable for applications where space is at a premium.

Another key characteristic of the SSPA and SSPB series is their programmability. With sophisticated firmware solutions, users can easily adapt the operation of these amplifiers and power blocks to meet specific application requirements. This flexibility, combined with their durability and reliability, makes them ideal for both stationary and mobile applications.

In summary, Advantech's SSPA and SSPB series exemplify the company's innovation in power amplification and management solutions. Their cutting-edge technologies, such as GaN components, along with robust protection features and programmability, position them as essential tools in a wide range of industrial applications. These devices not only enhance performance but also ensure the safety and longevity of the systems they support.