RWS02540-10 Datasheet, PDF(2/4 Page) RFHIC

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RWS02540-10 Datasheet, PDF (2/4 Pages) RFHIC – Wideband Power Amplifier

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Wideband Power Amplifier

RWS02540-10

Absolute Maximum Ratings

PARAMETER

Operating Flange Temperature

Input RF Power

Supply Voltage

Load Mismatch Value

* Input Signal Condition : CW 1-Tone

UNIT

Â°C

dBm

RATING

3 : 1 @all load phase

Environmental Characteristics

PARAMETER

Operating Temperature

Storage Temperature

Vibration

UNIT

Â°C

MIN

TYP

-20

-40

MIL-STD-810G Method 514.6 ANNEX C

MAX

105

Typical Performance @ 25Â°C

Frequency P1dB

(MHz)

100

200

300

400

512

(dBm)

44.9

44.6

44.2

43.5

43.8

44.1

P3dB

(dBm)

45.6

45.8

46.3

45.8

46.4

47.0

Current @P1dB

(A)

2.50

2.51

2.65

2.73

2.75

2.77

Current @P3dB

(A)

2.62

2.72

3.24

3.36

3.38

3.63

NTH Harm @43dBm

OIP3 (35dBm/Tone)

2nd Harm 3rd Harm

(dBc)

(dBm)

-51.36 -26.79

58.39

-52.28 -26.67

55.13

-44.02 -25.58

55.23

-45.31 -24.01

54.23

-42.22 -25.24

53.99

-41.21 -29.50

54.25

Precautions

1. This product is designed to be used for broadband amplification. Heat

generation is higher when there is no RF signal in the device.

Therefore, the worst case scenario is when there is no RF signal, and

the amplifier is âonâ with current draw.

The temperature must be calculated properly.

Case temperature must maintain below 85Â°C.

Right side drawing notes how to use a temperature monitoring

function to protect against overheating.

2. Thermal Grease or Metal Thermal Interface Materials are

recommended for heat dissipation. An example would be spreading

thermal grease on the bottom of the device

Korean Facilities : 82-31-250-5078 / rfsales@rfhic.com

US Facility : 919-677-8780 / sales@rfhicusa.com

2/4

RWS02540-10

Comparator Block (with hysteresis gap)

All specifications may change without notice

Version1.0

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