FP2189-RFID WJ Communications, FP2189-RFID Datasheet - Page 11

FP2189-RFID

Manufacturer Part Number

FP2189-RFID

Description

1 - Watt HFET

Manufacturer

WJ Communications

Datasheet

1.FP2189-RFID.pdf (13 pages)

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FP2189

1 - Watt HFET

Special attention should be taken to properly bias the FP2189.

Power supply sequencing is required to prevent the device from

operating at 100% Idss for a prolonged period of time and possibly

causing damage to the device. It is recommended that for the safest

operation, the negative supply be “first on and last off.” With a

negative gate voltage present, the drain voltage can then be applied

to the device. The gate voltage can then be adjusted to have the

device be used at the proper quiescent bias condition.

An optional active-bias current mirror is recommended for use with

the application circuits shown in this datasheet. Generally in a

laboratory environment, the gate voltage is adjusted until the drain

draws the recommended operating current.

required can vary slightly from device to device because of device

pinchoff variation, while also varying slightly over temperature.

The active-bias circuit, shown on the right, uses dual PNP transistors

to provide a constant drain current into the FP2189, while also

eliminating the effects of pinchoff variation. This configuration is

best suited for applications where the intended output power level of

the amplifier is backed off at least 6 dB away from its compression

point. With the implementation of the circuit, lower P1dB values

may be measured for a Class-AB amplifier, where the device will

attempt to source more drain current while the circuit tries to provide

a constant drain current. The circuit should be connected directly in

line with where the voltage supplies would be normally connected

with the amplifier circuit, as shown the diagram. Any required

matching circuitry remains the same, although it is not shown in the

diagram.

adds 7 components to the parts count for implementation, but should

cost only an extra $0.144 to realize ($0.10 for U1, $0.0029 for R1,

R3, R4, R5, $0.024 for R2, and $0.0085 for C1).

Temperature compensation is achieved by tracking the voltage

variation with the temperature of the emitter-to-base junction of the

two PNP transistors. As a 1st order approximation, this is achieved

by using matched transistors with approximately the same Ibe

current. Thus the transistor emitter voltage adjusts the HFET gate

voltage so that the device draws a constant current, regardless of the

temperature. A Rohm dual transistor - UMT1N - is recommended

for cost, minimal board space requirements, and to minimize the

variation between the two transistors. Minimizing the variability

between the base-to-emitter junctions allow more accuracy in setting

the current draw. More details can be found in a separate application

note “Active-bias Constant-current Source Recommended for

HFETs” found on the WJ website.

WJ Communications, Inc

This recommended active-bias constant-current circuit

Phone 1-800- WJ1-4401 FAX: 408-577-6621

Application Note: Constant-Current Active-Biasing

The gate voltage

e- mail: sales@wj.com

Product Information

Web site: www.wj.com

*R2 should be of size 0805 to dissipate 0.0625 Watts.

This should be of 1% tolerance. Two 2.0

parallel of size 0603 can also be used.

Rohm UMT1N

Specifications and information are subject to change without notice.

Neg Supply, Vgg

Pos Supply, Vdd

Parameter

-V

Vds

Ids

1 k

RF IN

HFET Application Circuit

M.N.

.01 F

250 mA

FP2189

+7.75 V

1.8 k

1.0

+8 V

1 k

-5 V

DUT

resistors in

September 2004

M.N.

RF OUT

FP2189-RFID WJ Communications, FP2189-RFID Datasheet - Page 11

FP2189-RFID

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