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| GaAs MMIC Preliminary Datasheet * Power amplifier for PCN/PCS applications * Fully integrated 2 stage amplifier * Operating voltage range: 2.7 to 6 V * Overall power added efficiency 35 % * Input matched to 50 , simple output match ESD: Electrostatic discharge sensitive device, observe handling precautions! CGY 181 ________________________________________________________________________________________________________ Type Marking Ordering code (8-mm taped) Package 1) CGY 181 CGY 181 Q68000-A8883 MW 12 Maximum ratings Characteristics Positive supply voltage Negative supply voltage 2) Supply current Channel temperature Storage temperature RF input power Total power dissipation (Ts 81 C) Ts: Temperature at soldering point Symbol VD VG max. Value 9 -8 2 150 -55...+150 25 5 Unit V V A C C dBm W ID TCh Tstg Pin Ptot Thermal Resistance Channel-soldering point RthChS 14 K/W 1) Plastic body identical to SOT 223, dimensions see chapter Package Outlines 2) VG = -8V only in combination with VTR = 0V; VG = -6V while VTR 0V Siemens Aktiengesellschaft pg. 1/14 01.02.96 HL EH PD 21 GaAs MMIC CGY 181 ________________________________________________________________________________________________________ Functional block diagramm: VG (1) VD1 (7) VD2 (11) Short description of CGY181 operation: A negative voltage between -4V to -6V (stabilization not necessary) has to be connected to the VG-pin, a positive supply voltage has to be applied to the VD-pins. The VTR-pin has to switched to 0V (GND) during transmit operation. The MMIC CGY181 is self-biased, the operating current is adjusted by the internal control circuit. In receive mode the VTR-pin is not VTR (2) Control Circuit Pin (8) Pout (11) GND1 (6,9) GND2 (3, 4, 5, 10) connected (shut off mode). Pin # 1 2 3,4,5,10 6,9 7 8 11 12 VG VTR GND 2 GND 1 VD1 RFin VD2,RFout - Configuration Negative voltage at control circuit (-4V...-8V) Control voltage for transmit mode (0V) or receive mode (open) RF and DC ground of the 2nd stage RF and DC ground of the 1st stage Positive drain voltage of the 1st stage RF input power Positive drain voltage of the 2nd stage, RF output power not connected DC characteristics Characteristics Drain current Symbol Conditions VD=3V, VG=0V, VTR n.c. min 0.6 2.4 typ 0.9 3.5 1.0 max 1.2 4.8 Unit A A A stage 1 IDSS1 stage 2 IDSS2 Drain current with active current control Transconductance (stage 1 and 2) Pinch off voltage ID gfs1 gfs2 Vp VD=3V, VG=-4V, VTR=0V VD=3V, ID=350mA VD=3V, ID=700mA VD=3V, ID<500A (all stages) 0.28 1.1 -3.8 0.32 1.3 -2.8 -1.8 S S V Siemens Aktiengesellschaft pg. 2/14 01.02.96 HL EH PD 21 GaAs MMIC Electrical characteristics CGY 181 ________________________________________________________________________________________________________ (TA = 25C , f=1.75 GHz, ZS=ZL=50 Ohm, VD=3.6V, VG =-4V, VTR pin connected to ground, unless otherwise specified) Characteristics Supply current Pin= 0 dBm Symbol min 14.5 17.5 30.5 33.5 - typ 1.2 2 400 10 20.5 15.5 18.5 31.5 34.5 37 35 -44.8 -70 -45.1 -75 1.9:1 41 44 max 3 - Unit A mA A A dB dB dB dBm dBm % % dBc dBc IDD IG ID IG G G G P0 P0 Negative supply current (normal operation) Shut-off current VTR n.c. Negative supply current (shut off mode, VTR pin n.c.) Small signal gain Pin = -5dBm Power Gain VD=3.6V, Pin = 16 dBm Power Gain VD=5V, Pin = 16 dBm Output Power VD=3.6V, Pin = 16 dBm Output Power VD=5V , Pin = 16 dBm Overall Power Added Efficiency VD=3.6V, Pin = 16 dBm Overall Power Added Efficiency VD=5V, Pin = 16 dBm Harmonics (Pin =16dBm) 2f0 VD=3.6V (Pout=31.85dBm) 3f0 Harmonics (Pin =16dBm) 2f0 VD=5V (Pout=31.85dBm) 3f0 Input VSWR VD=3.6V Third order intercept point f1=1.7500GHz; f2=1.7502GHz; VD = 3.6V IP3 IP3 dBm dBm Third order intercept point f1=1.7500GHz; f2=1.7502GHz; VD = 5V All RF-measurements were done in a pulsed mode with a duty cycle of 10% (ton=0.33ms)! Siemens Aktiengesellschaft pg. 3/14 01.02.96 HL EH PD 21 GaAs MMIC CGY 181 ________________________________________________________________________________________________________ DC-ID(VG) characteristics - typical values of stage 1, VD=3V 1,2 High current Medium current Low current 0,8 1 ID [A] 0,6 0,4 0,2 0 -5 -4,5 -4 -3,5 -3 -2,5 VG [V] -2 -1,5 -1 -0,5 0 DC-Output characteristics - typical values of stage 1 0,8 VG=-0.25 V 0,7 -0.50 V 0,6 Ptot=1.25 W -0.75 V 0,5 ID [A] -1.00 V -1.25 V -1.50 V -1.75 V 0,4 0,3 0,2 -2.00 V 0,1 -2.25 V 0 0 0,5 1 1,5 2 2,5 3 VD [V] 3,5 4 4,5 5 5,5 6 Pin 2 ( VTR ) has to be open during measuring DC-characteristics! Siemens Aktiengesellschaft pg. 4/14 01.02.96 HL EH PD 21 GaAs MMIC CGY 181 ________________________________________________________________________________________________________ DC-ID(VG) characteristics - typical values of stage 2, VD=3V 4,5 High current Medium current Low current 3,5 3 2,5 2 1,5 1 0,5 0 -5 -4,5 -4 -3,5 -3 -2,5 VG [V] -2 -1,5 -1 -0,5 0 ID [A] 4 DC-Output characteristics - typical values of stage 2 3 VG=-0.50 V 2,5 -0.75 V 2 Ptot=3.75 W -1.00 V -1.25 V -1.50 V ID [A] 1,5 1 -1.75 V -2.00 V 0,5 -2.25 V -2.50 V 0 0,5 1 1,5 2 2,5 3 VD [V] 3,5 4 4,5 5 5,5 6 0 Pin 2 ( VTR ) has to be open during measuring DC-characteristics! Siemens Aktiengesellschaft pg. 5/14 01.02.96 HL EH PD 21 GaAs MMIC Pout and PAE vs. Pin CGY 181 ________________________________________________________________________________________________________ ( VD=3.6V,VG=-4V,f=1.75GHz, pulsed with a duty cycle of 10%, ton=0.33ms ) 40 35 30 40 35 30 25 20 15 10 Pout [dBm] 5 0 -5 0 5 10 15 20 PAE [%] 5 0 Pout [dBm] 20 15 10 Pin [dBm] Pout and PAE vs. Pin ( VD=5V,VG=-4V,f=1.75GHz, pulsed with a duty cycle of 10%, ton=0.33ms ) 40 35 35 30 30 25 Pout [dBm] 25 20 20 15 15 Pout [dBm] 10 PAE [%] 10 5 5 -5 0 5 10 15 20 0 Pin [dBm] Siemens Aktiengesellschaft pg. 6/14 01.02.96 HL EH PD 21 PAE [%] PAE [%] 25 GaAs MMIC CGY 181 ________________________________________________________________________________________________________ Output power at different temperatures (VD=3.6V,VG=-4V,f=1.75GHz,pulsed with a duty cycle of 10%, ton=0.33ms) 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 -6 -4 -2 0 2 4 6 8 10 12 14 16 18 20 Pout [dBm] T=-20C T=+20C T=+70C Pin [dBm] Power added efficiency at different temperatures ( VD=3.6V,VG=-4V,f=1.75GHz,pulsed with a duty cycle of 10%, ton=0.33ms) 45 40 35 30 PAE [%] 25 20 15 10 5 0 -6 -4 -2 0 2 4 6 8 10 12 14 16 18 20 T=-20C T=+20C T=+70C Pin [dBm] Siemens Aktiengesellschaft pg. 7/14 01.02.96 HL EH PD 21 GaAs MMIC CGY 181 ________________________________________________________________________________________________________ Output power at different temperatures (VD=5V,VG=-4V,f=1.75GHz,pulsed with a duty cycle of 10%, ton=0.33ms) 35 34 33 32 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 -6 -4 -2 0 2 4 6 8 10 12 14 Pout [dBm] T=-20C T=+20C T=+70C 16 18 20 Pin [dBm] Power added efficiency at different temperatures ( VD=5V,VG=-4V,f=1.75GHz,pulsed with a duty cycle of 10%, ton=0.33ms) 40 35 30 PAE [%] 25 20 15 10 T=-20C T=+20C T=+70C 5 0 -6 -4 -2 0 2 4 6 8 10 12 14 16 18 20 Pin [dBm] Siemens Aktiengesellschaft pg. 8/14 01.02.96 HL EH PD 21 GaAs MMIC CGY 181 ________________________________________________________________________________________________________ Measured S-parameter at VD=3.6V and Pin=16dBm (VG=-4V, VTR connected to ground, pulsed with a duty cycle of 10%, ton=0.33ms) 30 25 20 15 MAG [dB] 10 5 MAG [S11] 0 MAG [S21] -5 -10 -15 -20 1400 1500 1600 1700 1800 1900 2000 2100 f [MHz] Measured S-parameter at VD=5V and Pin=16dBm (VG=-4V, VTR connected to ground, pulsed with a duty cycle of 10%, ton=0.33ms) 30 25 20 15 MAG [dB] 10 5 0 -5 -10 -15 -20 1400 MAG [S11] MAG [S21] 1500 1600 1700 1800 1900 2000 2100 f [MHz] Siemens Aktiengesellschaft pg. 9/14 01.02.96 HL EH PD 21 GaAs MMIC Pout vs. VD CGY 181 ________________________________________________________________________________________________________ ( VG=-4V,f=1.75GHz, Pin=16dBm,pulsed with a duty cycle of 10%, ton=0.33ms) 37 36 35 Pout [dBm] 34 33 32 31 30 29 28 2,5 3 3,5 4 4,5 5 5,5 6 VD [V] Performance of internal bias control circuit @VD=3V (VTR=0V, pulsed with a duty cycle of 10%, ton=0.33ms) 4,0 3,5 3,0 2,5 ID [A] 2,0 1,5 1,0 0,5 0,0 1,0 1,5 2,0 2,5 3,0 3,5 -VG [V] 4,0 4,5 5,0 5,5 6,0 High current Medium current Low current Performance of internal bias control circuit @VD=5V (VTR=0V, pulsed with a duty cycle of 10%, ton=0.33ms) 3,5 3,0 2,5 ID [A] 2,0 1,5 1,0 0,5 0,0 1,0 1,5 2,0 2,5 3,0 3,5 -VG [V] 4,0 4,5 5,0 5,5 6,0 High current Medium current Low current Siemens Aktiengesellschaft pg. 10/14 01.02.96 HL EH PD 21 GaAs MMIC Total Power Dissipation Ptot=f(TS) CGY 181 ________________________________________________________________________________________________________ Permissible pulse load Ptot_max/Ptot_DC = f(t_p) Siemens Aktiengesellschaft pg. 11/14 01.02.96 HL EH PD 21 GaAs MMIC CGY181 application board: Part Type CGY181 1nF 1nF 1nF 1p2 47 43nH CGY 181 ________________________________________________________________________________________________________ Description: Siemens GaAs-MMIC Capacitor SMD 0805 Capacitor SMD 0805 Capacitor SMD 0805 Capacitor SMD 0805 Capacitor SMD Tantal Coilcraft SMD Spring Inductor B10T (distributed by Ginsbury Electronic GmbH Am Moosfeld 85, D-81829 Munchen Tel.: 089/45170-223) Layout size is 30mm x 26mm. Principal circuit: VG 1nF 43nH VG (1) VD1 (7) VD2 (11) Original Size: +VD 1nF 4.7uF VTR (2) VTR 1nF Control Circuit IN Pin (8) Pout (11) OUT 1.2pF GND1 (6, 9) GND2 (3, 4, 5, 10) Siemens Aktiengesellschaft pg. 12/14 01.02.96 HL EH PD 21 GaAs MMIC CGY 181 ________________________________________________________________________________________________________ Emissions due to GMSK modulation: Measurement was done with the following equipment: negative supply voltage -4V Pulsed Power Supply Trigger VD=3.6V pulsed with a duty cycle of 10% gate delay 150us gate length 75us ton=0.577ms VG PCN Signal Generator ROHDE&SCHWARZ SME03 VD Pin=16dBm IN CGY181 VTR OUT Spectrum Analyzer HP 8561E Siemens Aktiengesellschaft pg. 13/14 01.02.96 HL EH PD 21 GaAs MMIC APPLICATION - HINTS 1. CW - capability of the CGY181 CGY 181 ________________________________________________________________________________________________________ Proving the possibility of CW - operations there must be known the total power dissipation of the device. This value can be found as a function of temperature in the datasheet (page 12). The CGY181 has a maximum total power dissipation of Ptot = 5 W. As an example we take the operating point with a drain voltage VD = 3.6 V and a typical drain current of ID=1.2A. So the maximum DC - power can be calculated to: PDC = VD I D = 4. 32W . This value is smaller than 5W and CW - operation is possible. By decoupling RF power out of the CGY181 the power dissipation of the device can be further reduced. Assuming a power added efficiency PAE of 35 % the total power dissipation Ptot can be calculated using the following formula: P = P (1 - PAE ) = 4. 32W (1 - 0. 35) = 2.808W tot DC 2. Operation without using the internal current control If you don' t want to use the internal current control, it is recommended to connect the negative gate voltage at pin 2 (VTR) instead of pin 1 (VG). In that case VG is not connected. 3. Biasing and use considerations Biasing should be timed in such a way the that gate voltage (VG) is always applied before the drain voltages (VD), and when returning to the standby mode, the drain voltages have be removed before the gate voltage. Siemens Aktiengesellschaft pg. 14/14 01.02.96 HL EH PD 21 |
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