High Power DPDT Switch with Logic Control CXG1213XR Description This CXG1213XR can be used in wireless communication systems, for example, W-CDMA handsets. The IC has on-chip logic for operation with 2 CMOS control inputs. The Sony JPHEMT process is used for low insertion loss and on-chip logic circuit. (Applications: Antenna switch for cellular handsets, dual-band W-CDMA) Features Low insertion loss 2 CMOS compatible control Package Small package size: 12-pin XQFN Structure GaAs JPHEMT MMIC Absolute Maximum Ratings (Ta = 25°C) Bias voltage VDD 7 V Control voltage Vctl 5 V Operating temperature Topr –35 to +85 °C Storage temperature Tstg –65 to +150 °C GaAs MMICs are ESD sensitive devices.Special handing 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- E05X06A61 CXG1213XR Block Diagram and Recommended Circuit RF3 RF2 GND CRF (27pF) CRF (27pF) 6 5 F3 GND 4 F4 7 RF1 8 3 F1 F5 F2 F6 2 CRF (1000pF) GND GND RF4 CRF (1000pF) 9 1 10 11 12 CTLA CTLB GND Cbypass (100pF) VDD When using this IC, the following external components should be used: CRF: This capacitor is used for RF decoupling and must be used for all applications. Cbypass: This capacitor is used for DC line filtering. 100pF is recommended. Truth Table State CTLA CTLB ON Path F1 F2 F3 F4 F5 F6 1 L L RF4 – RF3 OFF OFF ON OFF OFF ON 2 L H RF4 – RF2 OFF OFF OFF ON ON OFF 3 H L RF1 – RF3 OFF ON ON OFF OFF OFF 4 H H RF1 – RF2 ON OFF OFF ON OFF OFF -2- CXG1213XR Electrical Characterstics (1) (Ta = 25°C) Item Symbol State Condition Min. Typ. Max. Unit 0.25 0.45 dB 1920 to 1980MHz 0.40 0.65 dB 2110 to 2170MHz 0.45 0.70 dB 0.25 0.45 dB 1920 to 1980MHz 0.40 0.65 dB 2110 to 2170MHz 0.45 0.70 dB 830 to 885MHz 0.25 0.45 dB 1920 to 1980MHz 0.40 0.65 dB 2110 to 2170MHz 0.45 0.70 dB 0.25 0.45 dB 1920 to 1980MHz 0.40 0.65 dB 2110 to 2170MHz 0.45 0.70 dB RF4 – RF3, 830 to 885MHz 1 RF4 – RF2, 830 to 885MHz 2 Insertion loss IL RF1– RF3, 3 RF1 – RF2, 830 to 885MHz 4 2 1 Isolation ISO. 4 3 RF4 – RF3, 830 to 885MHz 1920 to 2170MHz RF4 – RF2, 830 to 885MHz 1920 to 2170MHz RF1 – RF3, 830 to 885MHz 1920 to 2170MHz RF1 – RF2, 830 to 885MHz 1920 to 2170MHz 25 dB 15 20 dB 25 30 dB 20 25 dB 25 30 dB 18 23 dB 20 25 dB 15 20 dB 1.2 — VSWR VSWR Switching speed TSW 1dB compression input power P1dB VDD = 2.85V 32 ACLR1 ±5MHz, 3.84MHz BW*1 –60 –50 dBc ACLR2 ±10MHz, 3.84MHz BW*1 –65 –55 dBc 2fo *2 –95 –80 dBc 3fo *2 –90 –75 dBc Bias current IDD VDD = 2.85V 80 150 μA Control current Ictl Vctl (H) = 1.85V 10 20 μA ACLR Harmonics *1 *2 50Ω 20 5 10 μs dBm Pin = 25dBm, 0/1.85V control, VDD = 2.85V, 830 to 840MHz, 1920 to 1980MHz, ROHDE & SCHWARZ SMIQ06B is used as a signal source, and the modulation and filter settings conform to WCDMA. Pin = 25dBm, 0/1.85V control, VDD = 2.85V, 830 to 840MHz, 1920 to 1980MHz -3- CXG1213XR (Ta = –35 to +85°C, The temperature characteristics are design guranteed.) Item Symbol State Condition Min. Typ. Max. Unit 0.60 dB 1920 to 1980MHz 0.80 dB 2110 to 2170MHz 0.85 dB 0.60 dB 1920 to 1980MHz 0.80 dB 2110 to 2170MHz 0.85 dB 830 to 885MHz 0.60 dB 1920 to 1980MHz 0.80 dB 2110 to 2170MHz 0.85 dB 0.60 dB 1920 to 1980MHz 0.80 dB 2110 to 2170MHz 0.85 dB RF4 – RF3, 830 to 885MHz 1 RF4 – RF2, 830 to 885MHz 2 Insertion loss IL RF1– RF3, 3 RF1 – RF2, 830 to 885MHz 4 2 1 Isolation ISO. 4 3 RF4 – RF3, 830 to 885MHz 1920 to 2170MHz RF4 – RF2, 830 to 885MHz 1920 to 2170MHz RF1 – RF3, 830 to 885MHz 1920 to 2170MHz RF1 – RF2, 830 to 885MHz 1920 to 2170MHz dB 13 dB 23 dB 18 dB 23 dB 16 dB 18 dB 13 dB VSWR VSWR Switching speed TSW 1dB compression input power P1dB VDD = 2.85V ACLR1 ±5MHz, 3.84MHz BW*1 –45 dBc ACLR2 ±10MHz, 3.84MHz –50 dBc 2fo *2 –75 dBc 3fo *2 –70 dBc Bias current IDD VDD = 2.85V 180 μA Control current Ictl Vctl (H) = 1.85V 40 μA ACLR Harmonics *1 *2 50Ω 18 1.2 — 15 32 BW*1 μs dBm Pin = 25dBm, 0/1.85V control, VDD = 2.85V, 830 to 840MHz, 1920 to 1980MHz, ROHDE & SCHWARZ SMIQ06B is used as a signal source, and the modulation and filter settings conform to WCDMA. Pin = 25dBm, 0/1.85V control, VDD = 2.85V, 830 to 840MHz, 1920 to 1980MHz -4- CXG1213XR (Ta = 25°C, The IMD characteristics are design guaranteed.(with recommended circuit) ) Item Symbol State IMD2 IMD3 1 2 IMD2 IMD3 IMD IMD2 IMD3 3 4 IMD2 IMD3 *1 *2 Condition Typ. Max. Unit Blocking f= 45MHz –105 –95 dBm *1, Blocking f= 1715MHz –108 –98 dBm *1, Blocking f= 790MHz –108 –98 dBm *1, Blocking f= 2550MHz –107 –97 dBm *2, Blocking f= 190MHz –107 –97 dBm *2, Blocking f= 4090MHz –117 –107 dBm *2, Blocking f= 1760MHz –106 –96 dBm *2, Blocking f= 6040MHz –106 –96 dBm *1, Blocking f= 45MHz –105 –95 dBm *1, Blocking f= 1715MHz –110 –100 dBm *1, Blocking f= 790MHz –107 –97 dBm *1, Blocking f= 2550MHz –115 –105 dBm *2, Blocking f= 190MHz –107 –97 dBm *2, Blocking f= 4090MHz –110 –100 dBm *2, Blocking f= 1760MHz –106 –96 dBm *2, Blocking f= 6040MHz –107 –97 dBm *1, Min. Rxf = 880MHz, Txf= 835MHz(Pin1= 20dBm), Pin2= –15dBm, 0/1.85V control, VDD = 2.85V Rxf = 2.14GHz, Txf= 1.95GHz(Pin1= 20dBm), Pin2= –15dBm, 0/1.85V control, VDD = 2.85V -5- CXG1213XR Electrical Characterstics (2) (Ta = 25°C) Item Symbol State Condition Min. Typ. Max. Unit 0.25 0.45 dB 1920 to 1980MHz 0.40 0.65 dB 2110 to 2170MHz 0.45 0.70 dB 0.25 0.45 dB 1920 to 1980MHz 0.40 0.65 dB 2110 to 2170MHz 0.45 0.70 dB 843 to 925MHz 0.25 0.45 dB 1920 to 1980MHz 0.40 0.65 dB 2110 to 2170MHz 0.45 0.70 dB 0.25 0.45 dB 1920 to 1980MHz 0.40 0.65 dB 2110 to 2170MHz 0.45 0.70 dB RF4 – RF3, 843 to 925MHz 1 RF4 – RF2, 843 to 925MHz 2 Insertion loss IL RF1– RF3, 3 RF1 – RF2, 843 to 925MHz 4 2 1 Isolation ISO. 4 3 RF4 – RF3, 843 to 925MHz 1920 to 2170MHz RF4 – RF2, 843 to 925MHz 1920 to 2170MHz RF1 – RF3, 843 to 925MHz 1920 to 2170MHz RF1 – RF2, 843 to 925MHz 1920 to 2170MHz 25 dB 15 20 dB 25 30 dB 20 25 dB 25 30 dB 18 23 dB 20 25 dB 15 20 dB 1.2 — VSWR VSWR Switching speed TSW 1dB compression input power P1dB VDD = 2.85V 32 ACPR1 ±900KHz, 30KHz BW*1 –60 –50 dBc ACPR2 ±1.98MHz, 30KHz BW*1 –65 –55 dBc ACPR1 ±1.25MHz, 30KHz BW*2 –60 –50 dBc ACPR2 ±1.98MHz, 30KHz BW*2 –65 –55 dBc 2fo *3 –95 –80 dBc 3fo *3 –90 –75 dBc Bias current IDD VDD = 2.85V 80 150 μA Control current Ictl Vctl (H) = 1.85V 10 20 μA ACPR Harmonics *1 *2 *3 50Ω 20 5 10 μs dBm Pin = 25dBm, 0/1.85V control, VDD = 2.85V, 898 to 925MHz, ROHDE & SCHWARZ SMIQ06B is used as a signal source, and the modulation and filter settings conform to IS-95. Pin = 25dBm, 0/1.85V control, VDD = 2.85V, 1920 to 1980MHz, ROHDE & SCHWARZ SMIQ06B is used as a signal source, and the modulation and filter settings conform to IS-95. Pin = 25dBm, 0/1.85V control, VDD = 2.85V, 830 to 840MHz, 1920 to 1980MHz -6- CXG1213XR (Ta = –35 to +85°C, The temperature characteristics are design guranteed.) Item Symbol State Condition Min. Typ. Max. Unit 0.60 dB 1920 to 1980MHz 0.80 dB 2110 to 2170MHz 0.85 dB 0.60 dB 1920 to 1980MHz 0.80 dB 2110 to 2170MHz 0.85 dB 843 to 925MHz 0.60 dB 1920 to 1980MHz 0.80 dB 2110 to 2170MHz 0.85 dB 0.60 dB 1920 to 1980MHz 0.80 dB 2110 to 2170MHz 0.85 dB RF4 – RF3, 843 to 925MHz 1 RF4 – RF2, 843 to 925MHz 2 Insertion loss IL RF1– RF3, 3 RF1 – RF2, 843 to 925MHz 4 2 1 Isolation ISO. 4 3 RF4 – RF3, 843 to 925MHz 1920 to 2170MHz RF4 – RF2, 843 to 925MHz 1920 to 2170MHz RF1 – RF3, 843 to 925MHz 1920 to 2170MHz RF1 – RF2, 843 to 925MHz 1920 to 2170MHz dB 13 dB 23 dB 18 dB 23 dB 16 dB 18 dB 13 dB VSWR VSWR Switching speed TSW 1dB compression input power P1dB VDD = 2.85V ACPR1 ±900KHz, 30KHz BW*1 –45 dBc ACPR2 ±1.98MHz, 30KHz BW*1 –50 dBc ACPR1 ±1.25MHz, 30KHz BW*2 –45 dBc ACPR2 ±1.98MHz, 30KHz BW*2 –50 dBc 2fo *3 –75 dBc 3fo *3 –70 dBc Bias current IDD VDD = 2.85V 180 μA Control current Ictl Vctl (H) = 1.85V 40 μA ACPR Harmonics *1 *2 *3 50Ω 18 1.2 — 15 32 μs dBm Pin = 25dBm, 0/1.85V control, VDD = 2.85V, 898 to 925MHz, ROHDE & SCHWARZ SMIQ06B is used as a signal source, and the modulation and filter settings conform to IS-95. Pin = 25dBm, 0/1.85V control, VDD = 2.85V, 1920 to 1980MHz, ROHDE & SCHWARZ SMIQ06B is used as a signal source, and the modulation and filter settings conform to IS-95. Pin = 25dBm, 0/1.85V control, VDD = 2.85V, 830 to 840MHz, 1920 to 1980MHz -7- CXG1213XR (Ta = 25°C, The IMD characteristics are design guaranteed.(with recommended circuit) ) Item Symbol State IMD2 IMD3 1 2 IMD2 IMD3 IMD IMD2 IMD3 3 4 IMD2 IMD3 *1 *2 Condition Typ. Max. Unit Blocking f= 45MHz –103 –93 dBm *1, Blocking f= 1715MHz –106 –96 dBm *1, Blocking f= 790MHz –106 –96 dBm *1, Blocking f= 2550MHz –105 –95 dBm *2, Blocking f= 190MHz –105 –95 dBm *2, Blocking f= 4050MHz –115 –105 dBm *2, Blocking f= 1740MHz –104 –94 dBm *2, Blocking f= 5980MHz –104 –94 dBm *1, Blocking f= 45MHz –103 –93 dBm *1, Blocking f= 1715MHz –108 –98 dBm *1, Blocking f= 790MHz –105 –95 dBm *1, Blocking f= 2550MHz –113 –103 dBm *2, Blocking f= 190MHz –105 –95 dBm *2, Blocking f= 4050MHz –108 –98 dBm *2, Blocking f= 1740MHz –104 –94 dBm *2, Blocking f= 5980MHz –105 –95 dBm *1, Min. Rxf = 880MHz, Txf= 835MHz(Pin1= 23dBm), Pin2= –15dBm, 0/1.85V control, VDD = 2.85V Rxf = 2.12GHz, Txf= 1.93GHz(Pin1= 23dBm), Pin2= –15dBm, 0/1.85V control, VDD = 2.85V DC Bias Conditions (Ta = –35 to +85°C) Item Min. Typ. Max. Unit Vctl (H) 1.6 1.85 3.2 V Vctl (L) 0 — 0.4 V 2.6 2.85 3.2 V VDD -8- CXG1213XR Package Outline (Unit: mm) LEAD PLATING SPECIFICATIONS ITEM LEAD MATERIAL -9- SPEC. COPPER ALLOY SOLDER COMPOSITION Sn-Bi Bi:1-4wt% PLATING THICKNESS 5-18µm Sony Corporation