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| CXG1051AFN Power Amplifier/Antenna Switch + Low Noise Down Conversion Mixer for PHS Description The CXG1051AFN is an MMIC consisting of the power amplifier, antenna switch and low noise down conversion mixer. This IC is designed using the Sony's GaAs J-FET process featuring a single positive power supply operation. Features * Operates at a single positive power supply: VDD = 3V * Small mold package: 26-pin HSOF Absolute Maximum Ratings 6 1.5 550 3 V V mA W VCTL 6 V VDD PRF 6 +10 V dBm 150 -35 to +85 -65 to +150 C C C Recommended Operating Conditions 2.7 to 3.3 V to VDD - 1.0 V VCTL (H) 2.9 to 3.3 VCTL (L) 0 to 0.2 V V Note on Handling GaAs MMICs are ESD sensitive devices. Special handling precautions are required. Sony reserves the right to change products and specifications without prior notice. This information does not convey any license by any implication or otherwise under any patents or other right. Application circuits shown, if any, are typical examples illustrating the operation of the devices. Sony cannot assume responsibility for any problems arising out of the use of these circuits. -1- E00225B25-PS CXG1051AFN Block Diagram and External Circuit 2.2nH PIN 14 13 (VGG1) 1k 15 12 100pF VPCTL VDD1 1nF VDD2 1nF VDD3 10nF 18nH 16 1nF 11 2.2nH VGG2 18nH 17 30pF 18 10 1pF 9 30pF (POUT) 1.8nH (TX) 19 8 100pF VCTL1 (RX) 30pF VCTL2 100pF (RFIN) 10nH 6.8nH 20 7 30pF ANT 21 6 22 10pF 13pF 23 3.3k 24 5 3.9nH 4 13pF 3 VDD (LO AMP) LOIN 1nF VDD (RF AMP) 25 100nF VDD (IF AMP, MIX) 1nF 26 82nH 5pF 2 18pF 1 1nF IFOUT Pin Configuration PIN 14 GND 15 VDD1 16 VDD2 17 VDD3 18 GND 19 RX 20 VCTL2 21 RFIN 22 CAP 23 GND 24 CAP 25 IFOUT/VDD (IF AMP, MIX) 26 13 VGG1 12 VPCTL 11 VGG2 10 POUT 9 8 7 6 5 4 3 2 1 Tx VCTL1 ANT GND GND VDD (RF AMP) GND VDD (LO AMP) LOIN 26 pin - HSOF (Plastic) -2- CXG1051AFN Electrical Characteristics 1. Control Pin Logic for Antenna Switch Conditions of control pins VCTL1 = 3V, VCTL2 = 0V VCTL1 = 0V, VCTL2 = 3V ANT - TX ON OFF ANT - RX OFF ON 2. Power Amplifier Block + Antenna Switch Transmitter Block These specifications are those when the Sony's recommended evaluation board, shown on page 6, is used. Unless otherwise specified: VDD = 3V, VPCTL = 2V, VCTL1 = 3V, VCTL2 = 0V, IDD = 150mA, POUT = 20.2dBm, f = 1.9GHz, Ta = 25C Item Current consumption Gate voltage adjustment value Output power Power gain Adjacent channel leak power ratio (600 100kHz) Adjacent channel leak power ratio (900 100kHz) Occupied bandwidth 2nd-order harmonic level 3rd-order harmonic level IDD VGG POUT GP ACPR600kHz ACPR900kHz OBW -- -- Measured with the ANT pin Measured with the ANT pin Measured with the ANT pin Measured with the ANT pin Measured with the ANT pin Measured with the ANT pin Symbol Measurement conditions Min. Typ. Max. Unit 150 0.04 0.25 0.60 20.2 36 39 -63 -70 250 -55 -60 275 -25 -25 mA V dBm dB dBc dBc kHz dBc dBc 3. Antenna Switch Receiver Block + Low Noise Down Conversion Mixer Block These specifications are those when the Sony's recommended evaluation board, shown on page 6, is used. Unless otherwise specified: VDD = 3V, VCTL1 = 0V, VCTL2 = 3V, RF1 = 1.90GHz/-35dBm, LO = 1.66GHz/-15dBm, Ta = 25C Item Current consumption Conversion gain Noise figure Input IP3 Image suppression ratio 1/2 IF suppression ratio 2 x LO-IF suppression ratio 2 x LO+IF suppression ratio LO to ANT leak PLK IDD GC NF IIP3 IMR 1/2IFR -- -- Symbol Measurement conditions When no signal When a small signal When a small signal 1 RF2 = 1.42GHz/-35dBm RF2 = 1.78GHz/-35dBm RF2 = 3.08GHz/-35dBm RF2 = 3.56GHz/-35dBm 17 Min. Typ. Max. Unit 5.5 20.5 4.2 -17.5 -13 30 39 39 24 40 44 47 62 -42 5.5 7.5 mA dB dB dBm dBc dBc dBc dBc -37 dBm 1 Conversion from IM3 suppression ratio during FR1 = 1.9000GHz/-35dBm and FR2 = 1.9006GHz/-35dBm input. -3- CXG1051AFN Example of Representative Characteristics 1. Power Amplifier + Antenna Switch Transmitter Block (f = 1.9GHz, Ta = 25C) POUT, ACPR600kHz vs. PIN VDD = 3V, VPCTL = 2V, VGG = const., VCTL1 = 3V, VCTL2 = 0V IDD = 150mA (@POUT = 20.2dBm), PIN = var. 25 -40 Gp, ACPR600kHz vs. VPCTL VDD = 3V, VPCTL = var., VGG = const., VCTL1 = 3V, VCTL2 = 0V IDD = 150mA (@VPCTL = 2V), PIN = var., POUT = 20.2dBm 45 -40 GP ACPR600kHz - Adjacent channel leak power rario [dBc] 20 POUT - Output power [dBm] POUT -45 40 Gp - Power gain [dB] -45 15 -50 35 -50 10 -55 30 -55 5 ACPR600kHz 0 -60 25 ACPR600kHz 20 -60 -65 -65 -5 -40 -35 -30 -25 -20 -15 -70 -10 15 0 0.5 1.0 1.5 2.0 2.5 VPCTL - Gain control voltage [V] -70 3.0 PIN - Input power [dBm] POUT, ACPR600kHz vs. VDD VDD = var., VPCTL = 2V, VGG = const., VCTL1 = 3V, VCTL2 = 0V IDD = 150mA (@VDD = 3V, POUT = 20.2dBm), PIN = -19.3dBm -40 23 Gp, ACPR600kHz vs. IDD VDD = 3V, VPCTL = 2V, VGG = var., VCTL1 = 3V, VCTL2 = 0V IDD = var., PIN = var., POUT = 20.2dBm 42 -40 ACPR600kHz - Adjacent channel leak power rario [dBc] 22 POUT - Output power [dBm] POUT 21 -45 41 Gp - Power gain [dB] GP 40 -45 -50 -50 20 ACPR600kHz -55 39 ACPR600kHz 38 -55 19 -60 -60 18 -65 37 -65 17 2.0 2.5 3.0 3.5 4.0 4.5 -70 5.0 36 100 120 140 160 180 200 -70 220 VDD - Supply voltage [V] IDD - Current consumption [mA] -4- ACPR600kHz - Adjacent channel leak power rario [dBc] ACPR600kHz - Adjacent channel leak power rario [dBc] CXG1051AFN 2. Antenna Switch Receiver Block + Low Noise Down Conversion Mixer (Ta = 25C) GC, NF vs. PLO POUT - IF output power, PIM3 - 3rd-order intermodulation distortion power [dBm] VDD = 3V, VCTL1 = 0V, VCTL2 = 3V, RF = 1.90GHz/small signal, LO = 1.66GHz 22 5.50 POUT, PIM3 vs. PIN VDD = 3V, VCTL1 = 0V, VCTL2 = 3V, RF1 = 1.9000GHz, RF2 = 1.9006GHz, LO = 1.66GHz/-15dBm 20 21 GC - Convertion gain [dB] GC 20 5.25 NF - Noise figure [dB] 0 POUT -20 5.00 19 4.75 -40 PIM3 -60 18 NF 17 4.50 4.25 -80 Input IP3 -100 -50 -40 -30 -20 -10 0 16 -25 4.00 -20 -15 -10 -5 0 PLO - Local input [dBm] PIN - RF input power [dBm] Input IP3, PLK vs. PLO VDD = 3V, VCTL1 = 0V, VCTL2 = 3V, RF = 1.90GHz/-35dBm, LO = 1.66GHz -10 Input IP3 -12 -35 -30 PLK - LO to ANT leak level [dBm] Input IP3 [dBm] -14 -40 -16 PLK -18 -45 -50 -20 -55 -22 -25 -60 -20 -15 -10 -5 0 PLO - Local input [dBm] -5- CXG1051AFN Recommended Evaluation Board Via Hole PAIN VPCTL VDD_PA VCTL2 VCTL1 VGG ANT VDD_LNA IFOUT VDD_IF Via Hole VDD_LO LOIN Glass fabric-base epoxy board (4 layers) Thickness between layers 1 and 2: 0.2mm Dimensions: 50mm x 50mm Enlarged Diagram of External Circuit Block R1 R1 = 1k R2 = 3.3k C8 L6 C1 L2 C6 C6 C3 C7 C4 L5 L4 R2 C10 C2 C5 C8 L7 C4 C8 C7 C6 L3 C8 C7 L2 C8 C9 L6 C6 L1 L1 = 1.8nH L2 = 2.2nH L3 = 3.9nH L4 = 6.8nH L5 = 10nH L6 = 18nH L7 = 82nH C1 = 1pF C2 = 5pF C3 = 10pF C4 = 13pF C5 = 18pF C6 = 30pF C7 = 100pF C8 = 1nF C9 = 10nF C10 = 100nF C8 -6- CXG1051AFN Package Outline Unit: mm HSOF 26PIN(PLASTIC) 0.9 0.1 0.08 *5.6 0.05 A 26 14 S 5.5 4.2 3.8 0.05 4.4 0.1 (1.5) (0.7) 0.5 1 0.4 0.07 M S A 13 S 0.2 4.4 0.2 Solder Plating 0.2 0.05 B + 0.05 0.14 - 0.03 DETAILB NOTE: Dimension "" does not include mold protrusion. PACKAGE STRUCTURE PACKAGE MATERIAL SONY CODE EIAJ CODE JEDEC CODE HSOF-26P-01 LEAD TREATMENT LEAD MATERIAL PACKAGE MASS EPOXY RESIN SOLDER PLATING COPPER ALLOY 0.06g Kokubu Ass'y HSOF 26PIN(PLASTIC) 0.9 0.1 0.08 *5.6 0.05 A 26 14 S 5.5 4.2 (0.2) + 0.05 0.2 0 0.4 (1.5) (0.7) 0.5 S 0.2 4.4 0.2 Solder Plating 0.2 0.05 + 0.05 0.14 - 0.03 DETAILB 3.8 0.05 4.4 0.1 1 0.4 0.07 M S A 13 B NOTE: Dimension "" does not include mold protrusion. PACKAGE STRUCTURE PACKAGE MATERIAL SONY CODE EIAJ CODE JEDEC CODE HSOF-26P-01 LEAD TREATMENT LEAD MATERIAL PACKAGE MASS EPOXY RESIN SOLDER PLATING COPPER ALLOY 0.06g LEAD PLATING SPECIFICATIONS ITEM LEAD MATERIAL SOLDER COMPOSITION PLATING THICKNESS SPEC. COPPER ALLOY Sn-Bi Bi:1-4wt% 5-18m -7- (0.2) + 0.05 0.2 0 0.4 (1.75) 0.45 0.15 (1.75) 0.45 0.15 Sony Corporation This datasheet has been download from: www..com Datasheets for electronics components. |
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