FPD1050SOT89 Datasheet v3.0 LOW NOISE HIGH LINEARITY PACKAGED PHEMT PACKAGE: FEATURES (1.8GHZ): * * * * * * 26 dBm Output Power (P1dB) 17.5 dB Small-Signal Gain (SSG) 1.1 dB Noise Figure 40 dBm Output IP3 50% Power-Added Efficiency FPD1050SOT89E: RoHS compliant (Directive 2002/95/EC) GENERAL DESCRIPTION: TYPICAL APPLICATIONS: The FPD1050SOT89 is a packaged depletion mode AlGaAs/InGaAs pseudomorphic High Electron Mobility Transistor (pHEMT). It utilizes a 0.25 m x 1050 m Schottky barrier Gate, defined by high-resolution stepperbased photolithography. The recessed and offset Gate structure minimizes parasitics to optimize performance, with an epitaxial structure designed for improved linearity over a range of bias conditions and i/p power levels. * * * Drivers or output stages in PCS/Cellular base station transmitter amplifiers High intercept-point LNAs WLL and WLAN systems, and other types of wireless infrastructure systems. ELECTRICAL SPECIFICATIONS: PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS Power at 1dB Gain Compression P1dB VDS = 5 V; IDS = 50% IDSS 24.5 26 dBm Small-Signal Gain SSG VDS = 5 V; IDS = 50% IDSS 16 17.5 dB Power-Added Efficiency PAE VDS = 5 V; IDS = 50% IDSS; 50 % POUT = P1dB Noise Figure NF VDS = 5 V; IDS = 50% IDSS 0.9 1.1 dB VDS = 5 V; IDS = 25% IDSS Output Third-Order Intercept Point IP3 (from 15 to 5 dB below P1dB) VDS = 5V; IDS = 50% IDSS Matched for optimal power 37 Matched for best IP3 39 dBm 40 Saturated Drain-Source Current IDSS VDS = 1.3 V; VGS = 0 V 260 320 385 mA Maximum Drain-Source Current IMAX VDS = 1.3 V; VGS +1 V 520 mA Transconductance GM VDS = 1.3 V; VGS = 0 V 270 mS Gate-Source Leakage Current IGSO VGS = -5 V 1 15 A Pinch-Off Voltage |VP| VDS = 1.3 V; IDS = 1.05 mA 0.7 1.0 1.3 V Gate-Source Breakdown Voltage |VBDGS| IGS = 1.05 mA 12 16 V Gate-Drain Breakdown Voltage |VBDGD| IGD = 1.05 mA 12 16 V Thermal Resistance RJC 76 C/W Note: TAMBIENT = 22; RF specification measured at f = 1850 MHz using CW signal (except as noted) 1 Tel: +44 (0) 1325 301111 Specifications subject to change without notice Filtronic Compound Semiconductors Ltd Fax: +44 (0) 1325 306177 Email: sales@filcs.com Website: www.filtronic.com FPD1050SOT89 Datasheet v3.0 1 ABSOLUTE MAXIMUM RATING : PARAMETER SYMBOL TEST CONDITIONS ABSOLUTE MAXIMUM Drain-Source Voltage VDS -3V < VGS < +0V 8V Gate-Source Voltage VGS 0V < VDS < +8V -3V Drain-Source Current IDS For VDS > 2V IDss Gate Current IG Forward or reverse current 10mA RF Input Power PIN Under any acceptable bias state 260mW Channel Operating Temperature TCH Under any acceptable bias state 175C Storage Temperature TSTG Non-Operating Storage -40C to 150C Total Power Dissipation PTOT See De-Rating Note below 2.0W Comp. Under any bias conditions 5dB 2 Gain Compression 3 Simultaneous Combination of Limits 2 or more Max. Limits Notes: 1 TAmbient = 22C unless otherwise noted; exceeding any one of these absolute maximum ratings may cause permanent damage to the device 2 Max. RF Input Limit must be further limited if input VSWR > 2.5:1 3 Users should avoid exceeding 80% of 2 or more Limits simultaneously 4 Total Power Dissipation defined as: PTOT (PDC + PIN) - POUT, where PDC: DC Bias Power, PIN: RF Input Power, POUT: RF Output Power Total Power Dissipation to be de-rated as follows above 22C: PTOT= 2.0 - (0.013W/C) x TPACK where TPACK= source tab lead temperature above 22C (coefficient of de-rating formula is the Thermal Conductivity) Example: For a 65C carrier temperature: PTOT = 2.0W - (0.013 x (65 - 22)) = 1.44W BIASING GUIDELINES: * * * * Active bias circuits provide good performance stabilization over variations of operating temperature, but require a larger number of components compared to self-bias or dual-biased. Such circuits should include provisions to ensure that Gate bias is applied before Drain bias, otherwise the pHEMT may be induced to self-oscillate Dual-bias circuits are relatively simple to implement, but will require a regulated negative voltage supply for depletion-mode devices. Self-biased circuits employ an RF-bypassed Source resistor to provide the negative Gate-Source bias voltage, and such circuits provide some temperature stabilization for the device. A nominal value for circuit development is 3.6 for a 50% of IDSS operating point. For standard Class A operation, a 50% of IDSS bias point is recommended. A small amount of RF gain expansion prior to the onset of compression is normal for this operating point. Note that pHEMTs, since they are "quasi- E/D mode" devices, exhibit Class AB traits when operated at 50% of IDSS. To achieve a larger separation between P1dB and IP3, an operating point in the 25% to 33% of IDSS range is suggested. Such Class AB operation will not degrade the IP3 performance. 2 Tel: +44 (0) 1325 301111 Specifications subject to change without notice Filtronic Compound Semiconductors Ltd Fax: +44 (0) 1325 306177 Email: sales@filcs.com Website: www.filtronic.com FPD1050SOT89 Datasheet v3.0 PREFERRED ASSEMBLY INSTRUCTIONS: PACKAGE OUTLINE: (dimensions in millimeters - mm) Available on request. HANDLING PRECAUTIONS: To avoid damage to the devices care should be exercised during handling. Proper Electrostatic Discharge (ESD) precautions should be observed at all stages of storage, handling, assembly, and testing. These devices should be treated as Class (0250 V) as defined in JEDEC Standard No. 22A114. Further information on ESD control measures can be found in MIL-STD-1686 and MIL-HDBK-263. APPLICATION NOTES & DESIGN DATA: PCB Foot Print Application Notes and design data including Sparameters are available on request. DISCLAIMERS: This product is not designed for use in any space based or life sustaining/supporting equipment. ORDERING INFORMATION: PART NUMBER DESCRIPTION FPD1050SOT89 Packaged pHEMT FPD1050SOT89E RoHS compliant Packaged pHEMT Units in inches NOTE: Drawing available on request 3 Tel: +44 (0) 1325 301111 Specifications subject to change without notice Filtronic Compound Semiconductors Ltd Fax: +44 (0) 1325 306177 Email: sales@filcs.com Website: www.filtronic.com