njg1723kt2 New Japan Radio Co.,Ltd, njg1723kt2 Datasheet
njg1723kt2
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njg1723kt2 Summary of contents
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... NJG1723KT2 is a GaAs multi-function MMIC composed of a power amplifier, a SPDT switch and a LNA+MIXER for Japanese PHS or WLL application. NJG1723KT2 is operated at low voltage, and includes a low current and low distortion PA, a low insertion loss antenna switch and a low noise and high gain LNA+MIXER. ...
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... NJG1723KT2 ABSOLUTE MAXIMUM RATINGS PARAMETER Supply Voltage Base Voltage V Terminal Current CC Control Voltage1, 2 LNA Voltage MIXER Voltage Local Amplifier Voltage Input Power 1 (PA IN terminal) Input Power 2 (ANT terminal) Input Power 3 (LOCAL IN terminal) Power Dissipation Operating Temperature Storage Temperature ELECTRICAL CHARACTERISTICS 1 (DC) ...
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... ACPR3 offset 600kHz Pin: π/4QPSK, Burst off, ACPR4 offset 900kHz 2nd Harmonics and Phm2 3rd Harmonics OBW2 Small signal VSWR3 PA IN terminal Small signal VSWR4 ANT terminal NJG1723KT2 =2.7V, V =0V, f =1900MHz, CTL1 CTL2 RF P =+23.2dBm OUT s MIN TYP MAX UNITS ...
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... NJG1723KT2 ELECTRICAL CHARACTERISTICS 4 (RX: ANT SW+LNA+MIXER) GENERAL CONDITIONS: T PARAMETER Operating Frequency LNA Operating Current MIXER Operating Current LNA Operating Current Conversion Gain Gain Flatness Noise Figure Input 3rd order Intercept Point Pin at 1dB Gain Compression Point Image suppression ratio 1/2 IF suppression ratio 2× ...
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... RF port. This terminal is one of ports of SPDT SW. This terminal connects to PC terminal (pin 15) when logical high voltage signal is supplied to VCTL2 (pin 13 P2 14) and logical low voltage signal is supplied to VCTL1 (pin 16). External capacitor C3 is required to block the DC bias voltage of internal circuit. NJG1723KT2 DESCRIPTION - 5 - ...
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... NJG1723KT2 No. SYMBOL Control port. Please connect bypass capacitor C2 with ground plane close to 14 VCTL2 this terminal. Common RF port. The terminal PC is connected to the terminal P1 or the terminal P2 by the voltage supplied to the terminal VCTL1 and VCTL2 order to block the DC bias voltage of internal circuit, external capacitor C1 is required ...
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... Output Power, PAE vs. Input Power 300 25 280 20 260 15 ICC 240 10 220 5 200 0 -35 -15 -10 Condition NJG1723KT2 P OUT ACPR1 ACPR2 -30 -25 -20 -15 Input Power (dBm) =1900MHz(π/4DQPSK) , Ta=+25 RF 1=Const. (@ICC1=240mA, Pout=+23.2dBm) BB =3.3V, V =2.7V CC CTL1 = =0V CTL2 LNA MIX LO PAE=17 ...
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... NJG1723KT2 TYPICAL CHARACTERISTICS (High Power Mode, TX ANT SW SECTION) Condition o Ta=+ 1=Const. (@ICC1=240mA, Pout=+23.2dBm =3.3V, V =2.7V CC CTL1 =0V CTL2 LNA MIX LO Condition o Ta=+ 1=Const. (@ICC1=240mA, Pout=+23.2dBm =3.3V, V =2.7V CC CTL1 =0V CTL2 LNA MIX Condition o Ta=+ 1=Const. (@ICC1=240mA, Pout=+23.2dBm) ...
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... TYPICAL CHARACTERISTICS (High Power Mode, TX ANT SW SECTION) Condition o Ta=+ 1=Const. (@ICC1=240mA, Pout=+23.2dBm =3.3V, V =2.7V CC CTL1 CTL2 LNA MIX Condition o Ta=+ 1=Const. (@ICC1=240mA, Pout=+23.2dBm =3.3V, V =2.7V CC CTL1 CTL2 LNA MIX =0V LO =0V LO NJG1723KT2 - 9 - ...
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... NJG1723KT2 TYPICAL CHARACTERISTICS (High Power Mode, TX ANT SW SECTION) Gp, P vs. V Terminal Voltage -1dB 1.35 1.40 1.45 V Terminal Voltage (V) BB Condition o f =1900MHz(CW), Ta=+ =Const. (ICC1=240mA =3.3V, V =2.7V CC CTL1 =0V CTL2 LNA MIX LO Iidle, I vs. V Terminal Voltage BB BB ...
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... Output Power 3.5 4.0 Condition f =1900MHz(π/4DQPSK), Ta=+ =Const. (ICC1=240mA@V RF =3.3V, Pout=+23.2dBm) V 1=Const. (ICC1=240mA@V BB =0V V CTL1 NJG1723KT2 OBW vs. V Terminal Voltage BB 280 270 260 250 240 230 220 1.35 1.40 1.45 V Terminal Voltage (V) BB =1900MHz(π/4DQPSK), Ta=+25 =Const. (ICC1=240mA@V =3.3V, Pout=+23.2dBm =3.3V, V =2.7V ...
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... NJG1723KT2 TYPICAL CHARACTERISTICS (High Power Mode, TX ANT SW SECTION) Iidle, I vs. V Terminal Voltage BB CC 260 240 220 Iidle 200 180 160 140 120 2.5 3.0 V Terminal Voltage (V) CC Condition o Ta=+ 1=Const. (ICC1=240mA =2.7V CTL1 CTL2 LNA MIX LO Phm vs. V Terminal Voltage ...
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... C) V 1=Const.(@ICC1=240mA, Ta=+ =3.3V CTL2 2.6 -30 IBB -35 2.4 -40 2.2 -45 2.0 -50 -55 1.8 -60 1.6 -65 1.4 - 100 NJG1723KT2 ACPR1 ACPR2 - Ambient Temperature ( C) =+23.2dBm OUT =2.7V, CTL1 = =0V LNA MIX LO Phm vs. Temperature 2nd Harmonics 3rd Harmonics -40 - Ambient Temperature ( ...
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... NJG1723KT2 TYPICAL CHARACTERISTICS (High Power Mode, TX ANT SW SECTION) OBW vs. Temperature 280 270 260 250 240 230 220 -40 - Ambient Temperature ( Condition f =1900MHz(π/4DQPSK 1=Const. (@ICC1=240mA, Ta=+ =3.3V, V =2.7V, CC CTL1 CTL2 LNA MIX LO Gp, Output Power vs. Temperature ...
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... C) Condition f RF =3.3V, Pout=+23.2dBm =3.3V, Pout=+23.2dBm CTL2 100 o C) =3.3V, Pout=+23.2dBm) =3.3V, Pout=+23.2dBm) NJG1723KT2 Phm vs. Temperature -30 -35 -40 -45 2nd Harmonics -50 -55 3rd Harmonics -60 -65 -70 -40 - Ambient Temperature ( =1900MHz(CW) =Const. (ICC1=240mA@V =3.3V, Pout=+23.2dBm) CC 1=Const. (ICC1=240mA@V =3 ...
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... NJG1723KT2 TYPICAL CHARACTERISTICS (Low Power Mode, TX ANT SW SECTION) Output Power, Gp vs. Input Power 25 P =+21.8dBm -1dB 20 P OUT -35 -30 -25 -20 Input Power (dBm) Condition f =1900MHz(CW), Ta=+ 2=Const. (@ICC2=180mA, Pout=+20.2dBm =3.3V, V =2.7V CC CTL1 =0V CTL2 LNA MIX LO Output Power, ICC vs ...
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... Pout=+20.2dBm =3.3V, V =2.7V CC CTL1 =0V CTL2 LNA MIX LO Condition o Ta=+ 2=Const. (@ICC2=180mA, Pout=+20.2dBm =3.3V, V =2.7V CC CTL1 =0V CTL2 LNA MIX LO NJG1723KT2 Condition o Ta=+ 2=Const. (@ICC2=180mA, Pout=+20.2dBm =3.3V, V =2.7V CC CTL1 =0V CTL2 LNA MIX ...
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... NJG1723KT2 TYPICAL CHARACTERISTICS (Low Power Mode, TX ANT SW SECTION) Condition o Ta=+ 2=Const. (@ICC2=180mA, Pout=+20.2dBm =3.3V CTL1 CTL2 LNA Condition o Ta=+ 2=Const. (@ICC2=180mA, Pout=+20.2dBm =3.3V CTL1 CTL2 LNA - 18 - =2.7V =V =0V MIX LO =2.7V =V =0V MIX LO ...
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... RF V =3.3V CTL2 3.2 2.8 2 2.0 1.6 1.2 0.8 0.4 1.50 1.55 Condition f =1900MHz(CW), Ta=+ =Const. (ICC2=180mA =3.3V CTL2 NJG1723KT2 Terminal Voltage BB -55 ACPR1 -60 -65 -70 -75 1.35 1.40 1.45 1.50 V Terminal Voltage ( =3.3V, Pout=+20.2dBm) CC =2.7V CTL1 =V =V =0V LNA MIX LO ICC, IBB vs. V Terminal Voltage BB 360 320 280 ...
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... NJG1723KT2 TYPICAL CHARACTERISTICS (Low Power Mode, TX ANT SW SECTION) Phm vs. V Terminal Voltage BB -30 -35 -40 -45 -50 -55 -60 2nd Harmonics -65 -70 1.35 1.40 1.45 V Terminal Voltage (V) BB Condition o f =1900MHz(CW), Ta=+ =Const. (ICC2=180mA =3.3V, V =2.7V CC CTL1 =0V CTL2 LNA MIX LO Gp, Output Power vs ...
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... Harmonics -60 230 -65 -70 220 3.5 4.0 Condition =3.3V, Pout=+20.2dBm =0V V CTL1 NJG1723KT2 ICC, IBB vs. V Terminal Voltage CC ICC 80 60 2.5 3.0 3.5 V Terminal Voltage ( =3.3V, Pout=+20.2dBm) CC =3.3V, Pout=+20.2dBm) CC =2.7V =0V CTL2 LNA MIX LO OBW vs ...
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... NJG1723KT2 TYPICAL CHARACTERISTICS (Low Power Mode, TX ANT SW SECTION) Gp, P vs. Temperature -1dB -40 - Ambient Temperature ( Condition f =1900MHz(CW OUT V 2=Const. (@ICC2=180mA,Ta=+ =3.3V, V =2.7V, CC CTL1 =0V CTL2 LNA MIX LO ICC, IBB vs. Temperature 240 220 200 180 ...
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... Output Power 100 o C) Condition f RF =3.3V, Pout=+20.2dBm =3.3V, Pout=+20.2dBm CTL2 NJG1723KT2 Iidle, I vs. Temperature BB 220 200 Iidle 180 160 140 120 100 -40 - Ambient Temperature ( Condition V 2=Const. (@ICC2=180mA,Ta=+ =3.3V, V =2.7V, CC CTL1 V ...
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... NJG1723KT2 TYPICAL CHARACTERISTICS (Low Power Mode, TX ANT SW SECTION) ICC, IBB vs. Temperature 240 220 200 180 160 ICC 140 120 -40 - Ambient Temperature ( Condition f =1900MHz(CW =Const. (ICC2=180mA@V =3.3V, Pout=+20.2dBm 2=Const. (ICC2=180mA =3.3V, V =2.7V, CC CTL1 =0V CTL2 LNA ...
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... =-45dBm RF =-15dBm -10 -10 -11 -15 =-40dBm RF OIP3=(3xIF-IM3)/2 IIP3=OIP3-Gc NJG1723KT2 Gc, NF vs.LO Power Gc NF -40 -30 -20 -10 LO Power (dBm) Condition f =240MHz IF f =1900MHz, P =-45dBm =1660MHz LO V =0V,V =2.7V CTL1 CTL2 =2.7V LNA MIX LO OIP3, IIP3 vs. LO Power ...
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... NJG1723KT2 TYPICAL CHARACTERISTICS (RX: ANT SW + LNA + MIXER SECTION) IF, IM3 vs. RF Power 20 OIP3=+11.7dBm IIP3=-8.3dBm 0 IF -20 -40 -60 IM3 -80 -100 -50 -40 -30 RF Power (dBm) Condition f =240MHz IF f =1900.0+1900.6MHz RF f =1660MHz =0V, V CTL1 LNA MIX LO to ANT Leakage vs. LO Frequency -30 -35 ...
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... TYPICAL CHARACTERISTICS (RX: ANT SW + LNA + MIXER SECTION) Condition P =-15dBm LO IF OUT 50ohm term. V =0V, V CTL1 CTL2 LNA MIX LO Condition P =-15dBm LO ANT 50ohm term. V =0V,V CTL1 LNA MIX =2.7V =2.7V =2.7V CTL2 =2.7V LO NJG1723KT2 Condition ANT, IF OUT 50ohm term. V =0V, V =2.7V CTL1 CTL2 =2.7V LNA MIX ...
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... NJG1723KT2 TYPICAL CHARACTERISTICS (RX: ANT SW + LNA + MIXER SECTION) Conversion Gain, Noise Figure vs LNA 2 LNA MIX Condition f =240MHz IF f =1900MHz =1660MHz =0V CTL1 P-1dB vs. V LNA -17 -18 -19 -20 -21 -22 2 LNA MIX ...
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... LNA MIX LO Noise Figure vs. RF Frequency 1880 1885 1890 1895 1900 1905 1910 1915 1920 =-45dBm RF =-15dBm =-40dBm RF OIP3=(3xIF-IM3)/2 IIP3=OIP3-Gc NJG1723KT2 Temperature Responce + + Frequency (MHz) Condition ...
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... NJG1723KT2 特性例 (Rx 部:ANT SW+LNA+MIXER 特性) Conversion Gain vs. LO Power Temperature Responce -40 -30 -20 LO Power (dBm) Condition f =240MHz IF f =1900MHz =1660MHz LO V =0V, V =2.7V CTL1 CTL2 =2.7V LNA MIX LO IIP3 vs. LO Power Temperature Responce -5 -10 -15 -20 ...
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... LNA MIX LOCAL OUT K factor vs. Frequency 200 180 160 140 120 100 15000 20000 =2.7V =2.7V LO 15000 20000 =2.7V CTL2 =2.7V LO NJG1723KT2 Temperature Responce 5000 10000 Frequency (MHz) Condition ANT 50ohm term. ...
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... NJG1723KT2 TEST CIRCUIT C13 V MIX L8 C12 C10 IF OUT C11 LOCAL C15 C17 R1 C14 C16 LNA C22 C21 C18 C19 C20 L9 19 L10 ...
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... MURATA (GRP15) 0.1µF MURATA (GRP15) 1µF MURATA (GRM18) 33pF MURATA (GRP15) 0.01µF MURATA (GRP15) 33pF MURATA (GRP15) 0.01µF MURATA (GRP15) 33pF MURATA (GRP15) 0.01µF MURATA (GRP15) 1µF MURATA (GRM18) 2pF MURATA (GRP15) 56pF MURATA (GRP15) 10pF MURATA (GRP15) 47Ω KOA (1005size) NJG1723KT2 - 33 - ...
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... NJG1723KT2 APPLIED CIRCUIT BOARD EXAMPLES V MIX C12 L8 C11 IF OUT V LO PRECAUTIONS 1. Please locate C5 close to terminal No.10. 2. Please locate L6 close to terminal No.3. 3. Please locate C9 close to L6. 4. Please connect exposed GND PAD (bottom side of IC) to PCB GND using through holes as many as possible. 5. Please design the PCB structure that the dielectric thickness between the surface layer and the GND layer (directly under) is set to 0 ...
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... MEASUREMENT BLOCK DIAGRAM (TX ANT SW SECTION) Power Sensor SG 50ohm Tx mode (PA+ANT SW) Measurement Block Diagram V =V =3.0V REF + V =Const. V =3.3V cont. CC (@ICC ANT DUT 10dB ATT 10dB ATT V =2.7V V =0V CTL1 CTL2 NJG1723KT2 Power Sensor Spectrum Analyzer 20dB ATT Agilent E4440A - 35 - ...
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... NJG1723KT2 MEASUREMENT BLOCK DIAGRAM (RX: ANT SW + LNA + MIXER SECTION) Conversion Gain Measurement Block Diagram - LNA V CTL1 ANT IF OUT SG DUT (RF) LOCAL IN SG (LO) ANT Noise DUT Source 6dB BPF LOCAL IN ATT. BPF SG (LO) Noise Figure Measurement Block Diagram SG (RF1) ANT Power DUT Comb. ...
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... This product may be damaged with electric static discharge (ESD) or spike voltage. Please handle with care to avoid these damages. 4.00 ±0 pin I NDEX ( TO P VIE W) 0.23±0.05 (2.50 ) 0.50±0.05 NJG1723KT2 ( EW) (0.2 0) 0.7 8±0.05 UNIT: mm [CAUTION] The specifications on this databook are only given for information , without any guarantee as regards either mistakes or omissions ...