F1792EVBI

RF Wideband Gain-Settable Downconverting Mixer 400MHz to 3800MHz Description Features This document describes the specifications for the F1792 Wideband, Gain-Settable, Zero-DistortionTM Flat-NoiseTM, RF to IF Downconverting Mixer.  The F1792 offers very low power consumption with excellent linearity. In addition to this the F1792 has four dynamically adjustable gain settings. The F1792 performance is exceptional across an extremely broad range of RF and IF frequencies. All of this makes it ideal for a myriad of applications including:  2G/3G/4G/5G/Multimode Remote Radio Units Point to Point µWave Backhaul systems Broadband Repeaters Public Safety Infrastructure Any radio system operating between 400MHz and 4000MHz                Competitive Advantage   F1792 offers maximum performance and flexibility at minimum power consumption. The unique and patented settable-gain feature allows it to be used in a very wide variety of radio card applications, even allowing for dynamic adjustment of gain to maximize performance on the fly. The extremely wide RF and IF bandwidths are achieved using a fixed BOM, all RF matching is internal to the device. The F1792 can function with as little as -6 dBm LO power. It also features a channel shutdown mode for ease of integration into high order TDD systems. RF range: 400MHz to 3800MHz LO range: 400MHz to 3600MHz IF Range: 50MHz to 600MHz 4 Gain Settings; 11dB, 8dB, 5dB, 2dB 2 bit gain step control Ideal for Multi-Carrier Systems +35dBm OIP3 Low Noise Figure at any gain setting via Renesas’ FlatNoiseTM technology Z = 200Ω IF balanced, 50Ω RF, 50Ω LO single-ended All internally matched. Single BOM for all RF, LO and IF frequencies 4 x 4 mm, 24-VFQFPN package Independent Path Standby mode 75 nsec settling for gain adjustment VCC = 3.3V, 462mW, 373mW (low power mode) Band Performance Summary Block Diagram Figure 1. Functional Block Diagram RF IN F1792 Datasheet RF Frequency (MHz) 900 1900 2600 3500 Gain (dB, max G11 setting) Gain (dB, min G2 setting) NF at max gain (dB) IIP3 at min gain (dBm) OIP3 at G8 (dBm) IP1dB at min gain (dBm) Pdiss (mW) 11.0 2.5 8.9 28 37 13.6 442 10.8 2.3 8.7 27 34 14.7 462 10.3 1.8 10.0 29 35 14.6 485 9.0 0.5 10.9 30 35 15.8 520 + IFOUT - LOIN © 2022 Renesas Electronics Corporation 1 February 9, 2022 F1792 Datasheet Pin Assignments Figure 2. Pin Assignments for 4 x 4 mm 24-VFQFPN Package – Top View Red denotes internal connection VCC IF_Bias IF_OUT+ IF_OUT- VCC STBY 24 23 22 21 20 19 RF_IN 1 18 VCC GND [RF_IN_rtn] 2 17 LO_ADJ NC 3 16 LO_IN NC 4 15 GND [LO_rtn] GND 5 14 NC NC 6 13 IFRef_Bias © 2022 Renesas Electronics Corporation 2 10 11 12 Gain_Select1 Gain_Select2 9 NC 8 NC VCC 7 NC Bias Control February 9, 2022 F1792 Datasheet Pin Descriptions Table 1. F1792 Pin Descriptions Number Name Description 1 RF_IN RF input. Matched to 50 ohms. DO NOT apply DC to this pin. 2 RF_IN_rtn 3, 4, 6, 8, 9, 10, 14 NC Not connected. 5 GND Ground this pin. 7, 18, 20, 24 VCC Power Supply. Bypass to ground with appropriate capacitors as close as possible to pin RF input transformer ground return. Ground this pin. 11 Gain_Select1 Gain select control pin, includes internal pull-down resistor. See gain select truth table for desired setting 12 Gain_Select2 Gain select control pin, includes internal pull-down resistor. See gain select truth table for desired setting 13 IFRef_Bias Connect recommended resistor value from this pin to ground to set the IF amplifier reference current 15 LO_IN_rtn LO input transformer ground return. Ground this pin. 16 LO_IN 17 LO_ADJ 19 STBY 21, 22 IF_OUT-, IF_OUT+ 23 IF_Bias — EP Local Oscillator (LO) input. Matched to 50 ohms. DO NOT apply DC to this pin. Connect zero ohm resistor to ground here for best performance Standby Input (Low/Open = Power ON, High = Power OFF). Includes internal pull-down resistor Mixer Differential IF Output. Connect pull-up inductors from each of these pins to VCC (see the Typical Application Circuit) Connect the specified resistor from this pin to ground to set the bias for the Main IF amplifier Exposed Pad. Internally connected to GND. Solder this exposed pad to a PCB pad that uses multiple ground vias to provide heat transfer out of the device into the PCB ground planes. These multiple via grounds are also required to achieve the specified RF performance © 2022 Renesas Electronics Corporation 3 February 9, 2022 F1792 Datasheet Absolute Maximum Ratings Table 2. Absolute Maximum Ratings Parameter Symbol Minimum Maximum Units VCC -0.5 +3.6 V STBY, Gain_Select1, Gain_Select2, RF_IN, LO1_ADJ, LO2_ADJ VCTRL -0.5 Vcc+0.5 V IF_OUT+, IF_OUT- IFOUT 2.4 Vcc+0.5 V LO_IN LOIN -0.5 +0.5 V IF_Bias IFBIAS 50 Ohms IF_Ref_Bias IFREF 500 Ohms RF Input Power RFMAX continuous 20 dBm LO Input Power LOMAX continuous 20 dBm Continuous Power Dissipation PDISS 1.5 W VCC to GND Conditions Junction temperature TJ - - 150 °C Storage temperature TS - -65 150 °C TLEAD (soldering, 10 seconds) 260 °C - - Class 2 (2500) V Lead temperature ESD – Human Body Model (JEDEC/ESDA JS-001-2012) - ESD – Charged Device Model Class C3 V (JEDEC 22-C101F) (1000) Stresses above those listed above may cause permanent damage to the device. Functional operation of the device at these or any other conditions above those indicated in the operational section of this specification is not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability Recommended Operating Conditions Table 3. Recommended Operating Conditions Parameter Symbol Minimum Typical Maximum Units VCC 3.15 - 3.45 V TCASE -40 - 105 °C RF Frequency Range FRF 400 3800 MHz Local Oscillator (LO) Frequency Range FLO 400 3600 MHz Intermediate Frequency (IF) Range FIF 50 600 MHz Local oscillator power level PLO -6 +6 dBm Power supply voltage Operating temperature range © 2022 Renesas Electronics Corporation 4 February 9, 2022 F1792 Datasheet Electrical Characteristics Table 4. F1792 Specification (General) Typical Application Circuit, VCC = +3.3V, TC = +25°C, FRF = 900MHz, FIF = 199MHz, FLO = 1099MHz, PLO = 0 dBm, PIN = -10dBm per tone for all gain settings unless otherwise stated, STBY = LOW. EVkit IF transformer losses are de-embedded unless otherwise noted. Parameter Symbol Conditions Minimum Logic Input High3 VIH3 - 1.11 Logic Input Low3 VIL3 Minimum attenuation Logic Current IIH, IIL For all control pins Supply Current ICH_LB Low band LO Supply Current ICH_MB Supply Current ICH_HB Supply Current – reduced linearity Shutdown current Settling Time Maximum Units V 0.65 V +100 uA 134 154 mA Mid band LO 140 160 mA High band LO 147 166 mA FRF = 2.2GHz, FLO = 2GHz OIP3 = +20dBm max gain IFRef_Bias resistor = 3.9Kohm 113 135 mA 3 6 mA -5 ISD TSETT Typical Pin = -13 dBm Gate STBY pin Time for IF Signal to settle from 50% STBY to within 90% of final value 340 nsec Pin = -13 dBm Gate STBY pin Time for IF Signal to settle from 50% STBY to within 0.1 dB of final value 920 nsec Pin = -13 dBm Gate Gain Select pins per Gain Control table Time for IF Signal to settle from 50% Gain Select to within 90% of final value 75 nsec RFIN Impedance ZRFIN Single-Ended 50 Ω LO Port Impedance ZLO Single-Ended 50 Ω IF Output Impedance ZIF Differential 200 Ω IF Return Loss RLIF Differential 200 ohm with 4:1 Balun -15 dB LO Return Loss RLLO Single-Ended 50 ohm -15 dB NOTE 1: Items in min/max columns in bold italics are Guaranteed by Test. NOTE 2: Items in min/max columns that are not bold/italics are Guaranteed by Design Characterization. NOTE 3: JEDEC 3.3V and JEDEC 1.8V logic. © 2022 Renesas Electronics Corporation 5 February 9, 2022 F1792 Datasheet Table 5. F1792 Specification (Low Band) Typical Application Circuit, VCC = +3.3V, TC = +25°C, FRF = 900MHz, FIF = 199MHz, FLO = 1099MHz, PLO = 0 dBm, PIN = -10dBm per tone for all gain settings unless otherwise stated, STBY = LOW. EVkit IF transformer losses are de-embedded unless otherwise noted. Gain Setting = G5 (~ 5 dB gain). Parameter Power Gain G5 Gain Change over temp Gain Slope Noise Figure Symbol Conditions G11 Gain setting = G11 11.1 G8 Gain setting = G8 8.3 G5 Gain setting = G5 G2 Gain setting = G2 2.5 G5TempDrift Tcase -40°C / +105°C referenced to +25°C -0.7 / +0.7 dB +0.006 dB/MHz GainSLOPE 4.05 IF center 200MHz 100MHz BW Typical 5.4 NFG11 Gain setting = G11 8.9 NFG8 Gain setting = G8 9.4 NFG5 4, 5 Gain setting = G5 10.1 NFG2 Gain setting = G2 10.7 IIP3G11 Gain setting = G11 800kHz tone separation 24 IIP3G8 Gain setting = G8 800kHz tone separation 29 IIP3G5 4 Gain setting = G5 800kHz tone separation IIP3G2 Gain setting = G2 800kHz tone separation 28 IIP3G3TempDrift Tcase -40°C / +105°C referenced to +25°C -2.6/+0.6 OIP3G11 Gain setting = G11 800kHz tone separation 35 Input IP3 G3 IIP3 change over temp Minimum Output IP3 26 Gain setting = G8 OIP3G8 800kHz tone separation NOTE 1: Items in min/max columns in bold italics are confirmed by Test. NOTE 2: Items in min/max columns that are not bold/italics are confirmed by Design Characterization. NOTE 3: JEDEC 3.3V and JEDEC 1.8V logic. NOTE 4: Specification limits over voltage and temperature NOTE 5: Max limit at Tcase = +105°C. © 2022 Renesas Electronics Corporation 6 28 37 Maximum 6.751 11.72 Units dB dB dBm dB dBm February 9, 2022 F1792 Datasheet Table 6. F1792 Specification (Low Band) Continued Typical Application Circuit, VCC = +3.3V, TC = +25°C, FRF = 900MHz, FIF = 199MHz, FLO = 1099MHz, PLO = 0 dBm, PIN = -10dBm per tone for all gain settings unless otherwise stated, STBY = LOW. EVkit IF transformer losses are de-embedded unless otherwise noted. Gain Setting = G5 (~ 5 dB gain). Parameter Symbol Conditions OIP3G5 Gain setting = G5 800kHz tone separation Gain setting = G5 Tc = +105°C LO power = -3dBm Vcc = 3.15V Output IP3 Input P1dB Minimum Typical Maximum Units 32 33 34 dBm OIP3G2 Gain setting = G2 800kHz tone separation 30 IP1dBG11 Gain setting = G11 IF_B Pout versus IF_A w/ RF_A input 7.0 IP1dBG8 Gain setting = G8 9.2 IP1dBG5 4 Gain setting = G5 IP1dBG2 Gain setting = G2 13.6 Pin up to +20dBm 17 dBm 48 dBm 10.4 dB 11.8 Maximum saturated output power Psat LO to IF leakage ISOLI 2LO to IF leakage ISOLI2 -38 3LO to IF leakage ISOLI3 -25 dBm 4LO to IF leakage ISOLI4 -49 dBm RF to IF leakage LO to RF leakage ISORI 47 RF output power compared to measured IF output power ISOLR RF Return Loss RLRF Single-Ended 50 ohm NOTE 1: Items in min/max columns in bold italics are confirmed by Test. NOTE 2: Items in min/max columns that are not bold/italics are confirmed by Design Characterization. NOTE 3: JEDEC 3.3V and JEDEC 1.8V logic. NOTE 4: Specification limits over voltage and temperature. NOTE 5: Max limit at Tcase = +105°C. © 2022 Renesas Electronics Corporation 7 -25 -35 -23 dBm dBc -52 dBm -12 dB February 9, 2022 F1792 Datasheet Table 7. F1792 Specification (Mid Band) Typical Application Circuit, VCC = +3.3V, TC = +25°C, FRF = 1900MHz, FIF = 199MHz, FLO = 1701MHz, PLO = 0 dBm, PIN = -10dBm per tone for all gain settings unless otherwise stated, STBY = LOW. EVkit IF transformer losses are de-embedded unless otherwise noted. Gain Setting = G5 (~ 5 dB gain). Parameter Power Gain G5 Gain Change over temp Gain Slope Noise Figure Blocking Noise Figure Symbol Conditions G11 Gain setting = G11 10.8 G8 Gain setting = G8 8.1 G5 Gain setting = G5 G2 Gain setting = G2 2.3 G5TempDrift Tcase -40°C / +105°C referenced to +25°C -0.6 / +0.7 dB +0.006 dB/MHz GainSLOPE 3.75 IF center 200MHz 100MHz BW Typical 5.1 NFG11 Gain setting = G11 8.7 NFG8 Gain setting = G8 9.1 NFG5 4, 5 Gain setting = G5 9.8 NFG2 Gain setting = G2 10.7 NFBLK Gain setting = G11 +100MHz offset blocker Pin = +4 dBm 17 IIP3G11 Gain setting = G11 800kHz tone separation 23 IIP3G8 Gain setting = G8 800kHz tone separation 25 IIP3G5 4 Gain setting = G5 800kHz tone separation IIP3G2 Gain setting = G2 800kHz tone separation 27 IIP3G3TempDrift Tcase -40vC / +105°C referenced to +25°C -0.2/+5 OIP3G11 Gain setting = G11 800kHz tone separation 33.6 Input IP3 G3 IIP3 change over temp Minimum Output IP3 8 6.451 11.42 Units dB dB dB dBm 25 Gain setting = G8 OIP3G8 800kHz tone separation NOTE 1: Items in min/max columns in bold italics are confirmed by Test. NOTE 2: Items in min/max columns that are not bold/italics are confirmed by Design Characterization. NOTE 3: JEDEC 3.3V and JEDEC 1.8V logic. NOTE 4: Specification limits over voltage and temperature. NOTE 5: Max limit at Tcase = +105°C. © 2022 Renesas Electronics Corporation Maximum 26 dB dBm 33.6 February 9, 2022 F1792 Datasheet Table 8. F1792 Specification (Mid Band) Continued Typical Application Circuit, VCC = +3.3V, TC = +25°C, FRF = 1900MHz, FIF = 199MHz, FLO = 1701MHz, PLO = 0 dBm, PIN = -10dBm per tone for all gain settings unless otherwise stated, STBY = LOW. EVkit IF transformer losses are de-embedded unless otherwise noted. Gain Setting = G5 (~ 5 dB gain). Parameter Symbol Conditions Minimum Typical OIP3G5 Gain setting = G5 800kHz tone separation 29 31.0 28.8 29.5 Gain setting = G5 Tc = +105°C LO power = -3dBm Vcc = 3.15V Maximum Units OIP3G2 Gain setting = G2 800 kHz tone separation IP1dBG11 Gain setting = G11 IP1dBG8 Gain setting = G8 IP1dBG5 4 Gain setting = G5 IP1dBG2 Gain setting = G2 14.7 Maximum saturated output power Psat Pin up to +20dBm 17 LO to IF leakage ISOLI -31 2LO to IF leakage ISOLI2 -20 dBm 3LO to IF leakage ISOLI3 -59 dBm 4LO to IF leakage ISOLI4 -44 dBm RF to IF leakage ISORI LO to RF leakage ISOLR Input P1dB 29.0 6.0 10.1 11.3 RF output power compared to measured IF output power RF Return Loss RLRF Single-Ended 50 ohm NOTE 1: Items in min/max columns in bold italics are confirmed by Test. NOTE 2: Items in min/max columns that are not bold/italics are confirmed by Design Characterization. NOTE 3: JEDEC 3.3V and JEDEC 1.8V logic. NOTE 4: Specification limits over voltage and temperature. NOTE 5: Max limit at Tcase = +105°C. © 2022 Renesas Electronics Corporation 9 7.7 dB 12.7 -25 dBm -22 -20 dBm dBc -46 dBm -13 dB February 9, 2022 F1792 Datasheet Table 9. F1792 Specification (High Band) Typical Application Circuit, VCC = +3.3V, TC = +25°C, FRF = 2600MHz, FIF = 199MHz, FLO = 2401MHz, PLO = 0 dBm, PIN = -10dBm per tone for all gain settings unless otherwise stated, STBY = LOW. EVkit IF transformer losses are de-embedded unless otherwise noted. Gain Setting = G5 (~ 5 dB gain). Parameter Power Gain G5 Gain Change over temp Symbol Conditions G11 Gain setting = G11 10.3 G8 Gain setting = G8 7.5 G5 Gain setting = G5 Gain setting = G5 FIF = 469MHz FLO = 2130MHz Typical Maximum 3.25 4.6 5.951 2.4 4.0 5.6 Units dB G2 Gain setting = G2 1.8 G5TempDrift Tcase -40°C / +105°C referenced to +25°C -0.7 / +0.7 dB GainSLOPE1 IF center 200MHz 100MHz BW +0.006 dB/MHz GainSLOPE2 IF center 370MHz 200MHz BW +0.008 dB/MHz Gain Slope Noise Figure Minimum NFG11 Gain setting = G11 10.0 NFG8 Gain setting = G8 10.4 NFG5 4, 5 Gain setting = G5 11.1 Gain setting = G5 FIF= 469MHz FLO = 2130MHz Gain setting = G2 11.9 IIP3G11 Gain setting = G11 800kHz tone separation 24 IIP3G8 Gain setting = G8 800kHz tone separation 28 IIP3G5 4 Gain setting = G5 800kHz tone separation IIP3G2 Gain setting = G2 800kHz tone separation dBm 25 Tcase -40°C / +105°C referenced to +25°C NOTE 1: Items in min/max columns in bold italics are confirmed by Test. NOTE 2: Items in min/max columns that are not bold/italics are confirmed by Design Characterization. NOTE 3: JEDEC 3.3V and JEDEC 1.8V logic. NOTE 4: Specification limits over voltage and temperature. NOTE 5: Max limit at Tcase = +105°C. G3 IIP3 change over temp IIP3G3TempDrift © 2022 Renesas Electronics Corporation dB 11.8 NFG2 Input IP3 132 10 28 29 -0.8/+1.8 dB February 9, 2022 F1792 Datasheet Table 10. F1792 Specification (High Band) Continued (-1-) Typical Application Circuit, VCC = +3.3V, TC = +25°C, FRF = 2600MHz, FIF = 199MHz, FLO = 2401MHz, PLO = 0 dBm, PIN = -10dBm per tone for all gain settings unless otherwise stated, STBY = LOW. EVkit IF transformer losses are de-embedded unless otherwise noted. Gain Setting = G5 (~ 5 dB gain). Parameter Symbol Conditions Minimum OIP3G11 Gain setting = G11 800kHz tone separation 34.7 OIP3G8 Gain setting = G8 800kHz tone separation 35.4 OIP3G5 Gain setting = G5 800kHz tone separation 32.5 Gain setting = G5 Tc = +105°C LO power = -3dBm Vcc = 3.15V Output IP3 28.4 Units 29.3 dBm 31.0 OIP3G2 Gain setting = G2 800 kHz tone separation 30.5 IP1dBG11 Gain setting = G11 8.3 IP1dBG8 Gain setting = G8 10.8 IP1dBG5 4 Gain setting = G5 11.8 Gain setting = G5 FIF = 469MHz FLO = 2130MHz 13.2 dBm 13.1 IP1dBG2 Gain setting = G2 14.6 Maximum saturated output power Psat Pin up to +20dBm 17 LO to IF leakage ISOLI -40 2LO to IF leakage ISOLI2 NOTE 1: Items in min/max columns in bold italics are confirmed by Test. NOTE 2: Items in min/max columns that are not bold/italics are confirmed by Design Characterization. NOTE 3: JEDEC 3.3V and JEDEC 1.8V logic. NOTE 4: Specification limits over voltage and temperature. NOTE 5: Max limit at Tcase = +105°C. © 2022 Renesas Electronics Corporation Maximum dBm Gain setting = G5 FIF = 469MHz FLO = 2130MHz Input P1dB Typical 11 -44 dBm -38 dBm dBm February 9, 2022 F1792 Datasheet Table 11. F1792 Specification (High Band) Continued (-2-) Typical Application Circuit, VCC = +3.3V, TC = +25°C, FRF = 2600MHz, FIF = 199MHz, FLO = 2401MHz, PLO = 0 dBm, PIN = -10dBm per tone for all gain settings unless otherwise stated, STBY = LOW. EVkit IF transformer losses are de-embedded unless otherwise noted. Gain Setting = G5 (~ 5 dB gain). Parameter Symbol Conditions Minimum 3LO to IF leakage ISOLI3 -68 dBm 4LO to IF leakage ISOLI4 -71 dBm RF to IF leakage ISORI LO to RF leakage ISOLR RF output power compared to measured IF output power RF Return Loss RLRF Single-Ended 50 ohm NOTE 1: Items in min/max columns in bold italics are confirmed by Test. NOTE 2: Items in min/max columns that are not bold/italics are confirmed by Design Characterization. NOTE 3: JEDEC 3.3V and JEDEC 1.8V logic. NOTE 4: Specification limits over voltage and temperature. NOTE 5: Max limit at Tcase = +105°C. © 2022 Renesas Electronics Corporation 12 Typical -51 Maximum -30 Units dBc -51 dBm -17 dB February 9, 2022 F1792 Datasheet Thermal Characteristics Table 12. Package Thermal and Moisture Characteristics Symbol Parameter Value Units θJA Theta JA. Junction to ambient. 45a °C/W θJC Theta JC. Junction to case. 2.1 °C/W MSL 1 - - Moisture Sensitivity Rating (Per J-STD-020) Typical Performance Characteristics Typical Operating Conditions (TOC) Unless otherwise noted, the following apply to the Typ Ops Graphs           High Side Injection for RF frequencies below 1.2GHz Low Side Injection for RF frequencies from 1.3 to 2.7 GHz 199MHz IF 800kHz Tone Spacing All measurements fully de-embedded for trace, connector, transformer losses Pin = -10dBm for Gain Pout = 0 dBm/Tone for IP3 LO level = 0 dBm, VCC = 3.30V Listed Temperatures are Case Temperature (TC = Case Temperature) Where noted, TA or TAMB = Ambient Temperature] © 2022 Renesas Electronics Corporation 13 February 9, 2022 F1792 Datasheet NxM (dBc, Gset=5 dB, LO=1700 MHz, IF=200 MHz, RFfund=0 dBm at 1900 MHz, RFspur(MHz)=(N*LO(MHz)+IF(MHz))/M ) M (RF) N (LO) 1 2 3 4 5 6 7 8 9 10 1 0.0 37.7 22.0 64.3 39.4 73.3 52.4 2 54.3 69.5 53.7 64.2 50.4 57.0 61.3 71.8 62.1 88.7 3 61.8 73.1 56.0 78.6 60 79.1 69.2 83.8 82.2 96.4 4 68.0 88.8 94.4 91.5 97.2 96.7 87.7 94.1 87.1 98.7 5 >99 >99 81.1 95.7 94.9 97.8 94.9 >99 86.6 97.3 6 >99 >99 >99 >99 >99 >99 >99 >99 >99 >99 7 >99 >99 >99 >99 >99 >99 >99 >99 >99 >99 8 >99 >99 >99 >99 >99 >99 >99 >99 >99 >99 9 >99 >99 >99 >99 >99 >99 >99 >99 >99 >99 10 >99 >99 >99 >99 >99 >99 >99 >99 >99 >99 NxM (dBc, Gset=5 dB, LO=1700 MHz, IF=200 MHz, RFfund=0 dBm at 1500 MHz, RFspur(MHz)=(N*LO(MHz)+IF(MHz))/M ) M (RF) N (LO) 1 2 3 4 5 6 7 8 9 10 1 0.0 42.1 19.0 61.0 36.5 77.2 50.1 2 49.0 72.4 57.0 60.0 53.9 57.1 63.1 68.0 62.5 85.7 3 69.8 78.6 51.5 75.9 62.1 75.3 66.0 84.5 76.2 91.4 4 72.9 86.3 98.3 91.1 97.5 >99 88.2 95.8 93.2 >99 5 >99 >99 85.2 96.9 86.7 >99 93.2 98.2 88.6 98.3 6 >99 >99 >99 >99 >99 >99 >99 >99 >99 >99 7 >99 >99 >99 >99 >99 >99 >99 >99 >99 >99 8 >99 >99 >99 >99 >99 >99 >99 >99 >99 >99 9 >99 >99 >99 >99 >99 >99 >99 >99 >99 >99 10 >99 >99 >99 >99 >99 >99 >99 >99 >99 >99 © 2022 Renesas Electronics Corporation 14 February 9, 2022 F1792 Datasheet TOCs (-1-) Fixed IF = 199MHz – IIP3, OIP3, and Gain Figure 3. IIP3 vs. Temperature and Gain Setting Figure 6. IIP3 vs. LO Power and Gain Setting (Vcc = 3.15, Tcase = 105°C) 42 46 38 42 34 38 30 34 Input IP3 (dBm) Input IP3 (dBm) 46 26 22 18 14 10 G=11dB / -40C G=11dB / 25C G=11dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C 30 26 22 18 14 10 6 G=11dB / 3dBm LO G=11dB / 0dBm LO G=11dB / -6dBm LO G=8dB / 3dBm LO G=8dB / 0dBm LO G=8dB / -6dBm LO G=5dB / 3dBm LO G=5dB / 0dBm LO G=5dB / -6dBm LO G=2dB / 3dBm LO G=2dB / 0dBm LO G=2dB / -6dBm LO 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2 3.4 3.6 3.8 6 RF Frequency (GHz) 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2 3.4 3.6 3.8 RF Frequency (GHz) Figure 4. OIP3 vs. Temperature and Gain Setting Figure 7. OIP3 vs. LO Power and Gain Setting (Vcc = 3.15, Tcase = 105°C) 50 46 50 42 46 42 34 38 30 Output IP3 (dBm) Output IP3 (dBm) 38 26 22 18 14 G=11dB / -40C G=11dB / 25C G=11dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C 34 30 26 22 18 10 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2 3.4 3.6 3.8 14 RF Frequency (GHz) G=11dB / 3dBm LO G=11dB / 0dBm LO G=11dB / -6dBm LO G=8dB / 3dBm LO G=8dB / 0dBm LO G=8dB / -6dBm LO G=5dB / 3dBm LO G=5dB / 0dBm LO G=5dB / -6dBm LO G=2dB / 3dBm LO G=2dB / 0dBm LO G=2dB / -6dBm LO 10 Figure 5. Gain vs. Temperature and Gain Setting 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2 3.4 3.6 3.8 RF Frequency (GHz) 14 Figure 8. Gain vs. LO Power and Gain Setting (Vcc = 3.15, Tcase = 105°C) 12 10 12 Gain (dB) 8 10 6 8 4 6 Gain (dB) 2 0 -2 -4 G=11dB / -40C G=11dB / 25C G=11dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C 4 2 0 -2 -4 -6 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2 3.4 3.6 3.8 -6 RF Frequency (GHz) G=11dB / 3dBm LO G=11dB / 0dBm LO G=11dB / -6dBm LO G=8dB / 3dBm LO G=8dB / 0dBm LO G=8dB / -6dBm LO G=5dB / 3dBm LO G=5dB / 0dBm LO G=5dB / -6dBm LO G=2dB / 3dBm LO G=2dB / 0dBm LO G=2dB / -6dBm LO -8 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2 3.4 3.6 3.8 RF Frequency (GHz) © 2022 Renesas Electronics Corporation 15 February 9, 2022 F1792 Datasheet TOCs (-2-) Fixed IF = 199MHz – P1dB Figure 9. Input P1dB vs. Temperature and Gain Setting Figure 10. Input P1dB vs. LO Level and Gain Setting (Vcc = 3.15, Tcase = -40°C) 18 18 16 16 14 Input P1dB (dBm) 14 Input P1dB (dBm) 12 10 8 6 4 2 VCC = 3.15 V TCASE = -40C 12 10 8 6 4 G=11dB / -40C G=11dB / 25C G=11dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C 2 0 G=11dB / 3dBm LO G=11dB / 0dBm LO G=11dB / -6dBm LO G=8dB / 3dBm LO G=8dB / 0dBm LO G=8dB / -6dBm LO G=5dB / 3dBm LO G=5dB / 0dBm LO G=5dB / -6dBm LO G=2dB / 3dBm LO G=2dB / 0dBm LO G=2dB / -6dBm LO -2 0 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2 3.4 3.6 3.8 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2 3.4 3.6 3.8 RF Frequency (GHz) RF Frequency (GHz) © 2022 Renesas Electronics Corporation 16 February 9, 2022 F1792 Datasheet TOCs (-3-) Fixed IF=199MHz – Power Consumption, LO to IF Leakage, and RF to IF Figure 14. LO to IF Leakage vs. Temperature and Gain Setting Figure 11. Power Consumption vs. Temperature and Gain Setting 0 600 -5 500 LO to IF leakage (dBm) Power Consumption (mW) -10 400 300 G=11dB / -40C G=11dB / 25C G=11dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C -15 G=11dB / -40C G=11dB / 25C G=11dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C -20 -25 -30 -35 -40 -45 200 -50 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2 3.4 3.6 3.8 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2 3.4 3.6 3.8 RF Frequency (GHz) RF Frequency (GHz) Figure 12. Power Consumption vs. Temperature and Gain Setting (Vcc = 3.15, Tcase = 105°C) Figure 15. RF to IF Leakage vs. Temperature and Gain Setting 0 600 VCC = 3.15 V TCASE = +105C -5 500 RF to IF Leakage (dBc) Power Consumption (mW) -10 400 300 G=11dB / 3dBm LO G=11dB / 0dBm LO G=11dB / -6dBm LO G=8dB / 3dBm LO G=8dB / 0dBm LO G=8dB / -6dBm LO G=5dB / 3dBm LO G=5dB / 0dBm LO G=5dB / -6dBm LO G=2dB / 3dBm LO G=2dB / 0dBm LO G=2dB / -6dBm LO G=11dB / -40C G=11dB / 25C G=11dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C -15 -20 -25 -30 -35 -40 -45 200 -50 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2 3.4 3.6 3.8 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2 3.4 3.6 3.8 RF Frequency (GHz) RF Frequency (GHz) Figure 13. Power Consumption vs. Temperature and Gain Setting (Vcc = 3.45, Tcase = -40°C) 600 Power Consumption (mW) VCC = 3.45 V TCASE = -40C 500 400 300 G=11dB / 3dBm LO G=11dB / 0dBm LO G=11dB / -6dBm LO G=8dB / 3dBm LO G=8dB / 0dBm LO G=8dB / -6dBm LO G=5dB / 3dBm LO G=5dB / 0dBm LO G=5dB / -6dBm LO G=2dB / 3dBm LO G=2dB / 0dBm LO G=2dB / -6dBm LO 200 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2 3.4 3.6 3.8 RF Frequency (GHz) © 2022 Renesas Electronics Corporation 17 February 9, 2022 F1792 Datasheet TOCs (-4-) Fixed IF=199MHz – Output IP2, Noise Figure Figure 18. Output IP2 vs. Temperature and Gain Setting (Vcc = 3.15, Tcase = 105°C) 80 80 75 75 70 70 65 65 Output IP2 (dBm) Ouptput IP2 (dBm) Figure 16. Output IP2 vs. Temperature and Gain Setting 60 55 50 45 40 35 G=11dB / -40C G=11dB / 25C G=11dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C 60 55 50 45 40 35 G=11dB / 3dBm LO G=11dB / 0dBm LO G=11dB / -6dBm LO G=8dB / 3dBm LO G=8dB / 0dBm LO G=8dB / -6dBm LO G=5dB / 3dBm LO G=5dB / 0dBm LO G=5dB / -6dBm LO G=2dB / 3dBm LO G=2dB / 0dBm LO G=2dB / -6dBm LO 30 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2 3.4 3.6 3.8 30 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2 3.4 3.6 3.8 RF Frequency (GHz) RF Frequency (GHz) Figure 19. Blocking Noise Figure (Max Gain, LO=1700MHz, RF=1899MHz, Blocker=1999MHz, 25°C ambient) Figure 17. Noise Figure vs. Temperature and Gain Setting 18 G=11dB / -40C G=11dB / 25C G=11dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C 24 20 14 Blocking Noise Figure (dB) Noise Figure (dB) 16 12 10 8 6 16 12 8 4 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2 3.4 3.6 3.8 4 -20 RF Frequency (GHz) -16 -12 -8 -4 0 4 8 Blocking Signal Level (dBm) © 2022 Renesas Electronics Corporation 18 February 9, 2022 F1792 Datasheet TOCs (-5-) Fixed LO = 1.1GHz, 1.7GHz, 2.25GHz, 3.13GHz – Input IP3 Figure 20. Input IP3 vs. Temperature and Gain Setting (LO=1.1GHz) Figure 22. Input IP3 vs. Temperature and Gain Setting (LO=2.25GHz) 46 46 LO Frequency = 1.1 GHz High Side Injection LO Frequency = 2.25 GHz Low Side Injection 42 38 38 34 34 Input IP3 (dBm) Input IP3 (dBm) 42 30 26 22 18 30 26 22 18 14 10 G=11dB / -40C G=11dB / 25C G=11dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C 14 10 6 G=11dB / 25C G=11dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C 6 0 50 100 150 200 250 300 350 400 450 500 550 600 0 50 IF Frequency (MHz) 100 150 200 250 300 350 400 450 500 550 600 IF Frequency (MHz) Figure 21. Input IP3 vs. Temperature and Gain Setting (LO=1.7GHz) Figure 23. Input IP3 vs. Temperature and Gain Setting (LO=3.13GHz) 46 46 LO Frequency = 1.7 GHz Low Side Injection 42 LO Frequency = 3.13 GHz Low Side Injection 42 38 38 34 34 Input IP3 (dBm) Input IP3 (dBm) G=11dB / -40C 30 26 22 18 30 26 22 18 14 10 G=11dB / -40C G=11dB / 25C G=11dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C 14 10 6 G=11dB / -40C G=11dB / 25C G=11dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C 6 0 50 100 150 200 250 300 350 400 450 500 550 600 0 IF Frequency (MHz) © 2022 Renesas Electronics Corporation 50 100 150 200 250 300 350 400 450 500 550 600 650 700 IF Frequency (MHz) 19 February 9, 2022 F1792 Datasheet TOCs (-6-) Fixed LO = 1.1GHz, 1.7GHz, 2.25GHz, 3.13GHz – Output IP3 Figure 24. Output IP3 vs. Temperature and Gain Setting (LO=1.1GHz) Figure 26. Output IP3 vs. Temperature and Gain Setting (LO=2.25GHz) 50 50 LO Frequency = 1.1 GHz High Side Injection 42 42 38 38 34 30 26 22 18 14 LO Frequency = 2.25 GHz Low Side Injection 46 Output IP3 (dBm) Output IP3 (dBm) 46 G=11dB / -40C G=11dB / 25C G=11dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C 34 30 26 22 18 14 10 G=11dB / 25C G=11dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C 10 0 50 100 150 200 250 300 350 400 450 500 550 600 0 50 IF Frequency (MHz) 100 150 200 250 300 350 400 450 500 550 600 IF Frequency (MHz) Figure 25. Output IP3 vs. Temperature and Gain Setting (LO=1.7GHz) Figure 27. Output IP3 vs. Temperature and Gain Setting (LO=3.13GHz) 50 50 LO Frequency = 1.7 GHz Low Side Injection 46 LO Frequency = 3.13 GHz Low Side Injection 46 42 42 38 38 Output IP3 (dBm) Output IP3 (dBm) G=11dB / -40C 34 30 26 22 34 30 26 22 18 14 G=11dB / -40C G=11dB / 25C G=11dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C 18 14 10 G=11dB / -40C G=11dB / 25C G=11dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C 10 0 50 100 150 200 250 300 350 400 450 500 550 600 0 IF Frequency (MHz) © 2022 Renesas Electronics Corporation 50 100 150 200 250 300 350 400 450 500 550 600 650 700 IF Frequency (MHz) 20 February 9, 2022 F1792 Datasheet TOCs (-7-) Fixed LO = 1.1GHz, 1.7GHz, 2.25GHz, 3.13GHz – Gain Figure 28. Gain vs. Temperature and Gain Setting (LO=1.1GHz) Figure 30. Gain vs. Temperature and Gain Setting (LO=2.25GHz) 14 14 LO Frequency = 1.1 GHz High Side Injection LO Frequency = 2.25 GHz Low Side Injection 12 10 10 8 8 Gain (dB) Gain (dB) 12 6 4 2 6 4 2 0 0 -2 -4 G=11dB / -40C G=11dB / 25C G=11dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C -2 -4 -6 G=11dB / -40C G=11dB / 25C G=11dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C -6 0 50 100 150 200 250 300 350 400 450 500 550 600 0 50 100 150 IF Frequency (MHz) 250 300 350 400 450 500 550 600 IF Frequency (MHz) Figure 29. Gain vs. Temperature and Gain Setting (LO=1.7GHz) Figure 31. Gain vs. Temperature and Gain Setting (LO=3.13GHz) 14 12 LO Frequency = 1.7 GHz Low Side Injection 12 LO Frequency = 3.13 GHz Low Side Injection 10 10 8 8 6 Gain (dB) Gain (dB) 200 6 4 2 4 2 0 0 -2 -2 -4 G=11dB / -40C G=11dB / 25C G=11dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C -4 -6 -6 G=11dB / -40C G=11dB / 25C G=11dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C -8 0 50 100 150 200 250 300 350 400 450 500 550 600 0 © 2022 Renesas Electronics Corporation 50 100 150 200 250 300 350 400 450 500 550 600 650 700 IF Frequency (MHz) IF Frequency (MHz) 21 February 9, 2022 F1792 Datasheet TOCs (-8-) Fixed LO = 1.1GHz, 1.7GHz, 2.25GHz, 3.13GHz – Input P1dB Figure 32. Input P1dB vs. Temperature and Gain Setting (LO=1.GHz) Figure 34. Input P1dB vs. Temperature and Gain Setting (LO=2.25GHz) 16 16 Measurement Setup Limited 14 14 12 12 Input P1dB (dBm) Input P1dB (dBm) LO Frequency = 1.1 GHz High Side Injection 10 8 6 4 2 G=11dB / -40C G=11dB / 25C G=11dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C 10 8 LO Frequency = 2.25 GHz Low Side Injection 6 4 2 0 G=11dB / 25C G=11dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C 0 0 50 100 150 200 250 300 350 400 450 500 550 600 0 50 IF Frequency (MHz) 100 150 200 250 300 350 400 450 500 550 600 IF Frequency (MHz) Figure 33. Input P1dB vs. Temperature and Gain Setting (LO=1.7GHz) Figure 35. Input P1dB vs. Temperature and Gain Setting (LO=3.13GHz) 16 20 14 18 LO Frequency = 3.13 GHz Low Side Injection 16 Input P1dB (dBm) 12 Input P1dB (dBm) G=11dB / -40C 10 8 LO Frequency = 1.7 GHz Low Side Injection 6 4 2 G=11dB / -40C G=11dB / 25C G=11dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C 14 12 10 8 6 4 0 G=11dB / -40C G=11dB / 25C G=11dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C 2 0 50 100 150 200 250 300 350 400 450 500 550 600 0 IF Frequency (MHz) © 2022 Renesas Electronics Corporation 50 100 150 200 250 300 350 400 450 500 550 600 650 700 IF Frequency (MHz) 22 February 9, 2022 F1792 Datasheet TOCs (-9-) Fixed LO=1.1GHz, 1.7GHz, 2.25GHz, 3.13GHz – Output IP2 Figure 36. Output IP2 vs. Temperature and Gain Setting (LO=1.1GHz) Figure 38. Output IP2 vs. Temperature and Gain Setting (LO=2.25GHz) 80 80 LO Frequency = 1.1 GHz High Side Injection LO Frequency = 2.25 GHz Low Side Injection 70 Output IP2 (dBm) Output IP2 (dBm) 70 60 50 40 30 G=11dB / -40C G=11dB / 25C G=11dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C 60 50 40 30 G=11dB / -40C G=11dB / 25C G=11dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C 20 20 0 50 100 150 200 250 300 350 400 450 500 550 0 600 50 100 150 IF Frequency (MHz) 200 250 300 350 Figure 37. Output IP2 vs. Temperature and Gain Setting (LO=1.7GHz) 450 500 550 600 Figure 39. Output IP2 vs. Temperature and Gain Setting (LO=3.13GHz) 80 70 LO Frequency = 1.7 GHz Low Side Injection LO Frequency = 3.13 GHz Low Side Injection 60 Output IP2 (dBm) 70 Output IP2 (dBm) 400 IF Frequency (MHz) 60 50 40 30 50 40 30 G=11dB / -40C G=11dB / 25C G=11dB / 105C G=11dB / -40C G=11dB / 25C G=11dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=8dB / -40C G=8dB / 25C G=8dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=5dB / -40C G=5dB / 25C G=5dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C G=2dB / -40C G=2dB / 25C G=2dB / 105C 20 20 10 0 50 100 150 200 250 300 350 400 450 500 550 600 0 IF Frequency (MHz) © 2022 Renesas Electronics Corporation 50 100 150 200 250 300 350 400 450 500 550 600 650 700 IF Frequency (MHz) 23 February 9, 2022 F1792 Datasheet TOCs (-10-) Return Losses, Evaluation Kit Losses, STBY Settling Time Figure 40. IF Port Return Loss vs. Gain Setting Figure 43. Evaluation Kit IF Transformer Loss vs. Temperature 0 0.0 G=11dB / 25C amb -5 -0.2 G=2dB / 25C amb EVkit IF Transformer Loss (dB) IF Port Return Loss (dB) G=5dB / 25C amb G=8dB / 25C amb -10 -15 -20 -25 -0.4 -0.6 -0.8 -1.0 -1.2 T = -40C -1.4 T = 25C -1.6 T = 105C -1.8 -30 50 100 150 200 250 300 350 400 450 500 550 -2.0 IF Frequency (MHz) 0 50 100 150 200 250 300 350 400 450 500 550 600 650 IF Frequency (MHz) Figure 44. Evaluation Kit RF Trace Loss vs. Temperature Figure 41. RF Port Return Loss vs. LO Frequency 0 0.0 LO Frequency = RF Freq +/- 200 MHz LO Power = 0 dBm -0.2 EVkit RF Trace Loss (dB) RF Return Loss (dB) -5 -10 -15 -20 -0.4 -0.6 -0.8 T = -40C T = 25C -1.0 T = 105C -1.2 -25 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2 3.4 3.6 3.8 -1.4 RF (GHz) 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2 3.4 3.6 3.8 RF Frequency (GHz) Figure 42. LO Port Return Loss vs. LO Power Level Figure 45. STBY Settling Time 0 -5 dBm 0 dBm +5 dBm LO Port Return Loss (dB) -5 -10 -15 -20 -25 0.4 0.6 0.8 1.0 1.2 1.4 1.6 1.8 2.0 2.2 2.4 2.6 2.8 3.0 3.2 3.4 3.6 3.8 RF Frequency (GHz) © 2022 Renesas Electronics Corporation 24 February 9, 2022 F1792 Datasheet TOCs (-11-) Gain Settling Time Figure 49. Gain Settling Time for 5dB to 8dB Gain Setting -200 ns -150 ns -100 ns -50 ns 0.0 s 50 ns 100 ns 150 ns 200 ns IF Output IF Output Gain_Select1 Gain_Select2 Gain_Select2 Figure 46. Gain Settling Time for 11dB to 8dB Gain Setting 250 ns -200 ns -150 ns -100 ns -50 ns 50 ns 100 ns 150 ns 200 ns 0.0 s 50 ns 100 ns 150 ns 200 ns Gain_Select2 IF Output IF Output -200 ns -150 ns -100 ns -50 ns 250 ns -200 ns -150 ns -100 ns -50 ns 0.0 s 50 ns 100 ns 150 ns 200 ns Figure 51. Gain Settling Time for 2dB to 5dB Gain Setting IF Output Gain_Select1 Gain_Select2 IF Output -200 ns -150 ns -100 ns -50 ns 0.0 s 50 ns 100 ns 150 ns 200 ns © 2022 Renesas Electronics Corporation 250 ns Gain_Select2 Figure 48. Gain Settling Time for 8dB to 5dB Gain Setting -200 ns -150 ns -100 ns -50 ns 250 ns Figure 50. Gain Settling Time for 5dB to 2dB Gain Setting Gain_Select2 Figure 47. Gain Settling Time for 8dB to 11dB Gain Setting 0.0 s 0.0 s 50 ns 100 ns 150 ns 200 ns 250 ns 250 ns 25 February 9, 2022 F1792 Datasheet Applications Information EvKit Picture © 2022 Renesas Electronics Corporation 26 February 9, 2022 F1792 Datasheet EvKit / Applications Circuit VCC4 C10 J8 L3 3 4 5 1 C22 1 4 T2 C19 6 Pin 20 must be connected to Vcc for proper operation 3 2 2 C23 L4 Balun Center Tap J9 3 4 5 2 VCC C9 R15 C20 1 R16 C16 J7 SD_1 R14 G_SET2 G_SET1 SD_1 SD_2 C15 VCC5 C12 C11 Vcc 19 STBY 20 21 Gain_Sel2 Gain_Sel1 NC 13 IFRef Bias R10 12 7 10 PAD NC 25 NC 2 NC C21 14 NC 11 6 1 22 GND 9 C2 15 GND Vcc 2 5 R12 3 4 5 J4 1 16 LO_IN F 1 7 9 2 NC VCC3 17 LO_ADJ NC 4 C8 18 Vcc GND 3 3 4 5 C7 RF_IN 2 J2 R13 2 1 IF_OUT- IF_BiasA C1 1 8 J1 3 4 5 4x2 Header IF_OUT+ Vcc U1 23 SD_2 24 1 3 5 7 2 9 4 10 6 11 8 12 VCC R9 R11 G_SET2 VCC1 C13 C4 C3 R8 G_SET1 R6 VCC1 VCC2 VCC3 VCC4 VCC5 C14 1 TP5 1 TP4 1 TP3 1 TP2 1 TP1 L1 L2 J3 C18 1 T3 VCC2 2 3 R1 R2 R3 R4 C6 R5 1 3 4 5 2 R7 6 4 C5 C17 Balun Center Tap VCC © 2022 Renesas Electronics Corporation 27 February 9, 2022 F1792 Datasheet EvKit BOM Part Reference QTY Description Mfr. Part # Mfr. 6 1000pF ±5%, 50V, C0G Ceramic Capacitor (0402) GRM1555C1H102J Murata 10 10,000pF ±10%, 50V, X7R Ceramic Capacitor (0603) GRM188R71H103KA01D Murata 1 1000pF ±5%, 50V, C0G Ceramic Capacitor (0402) GRM1555C1H102J Murata 2 39pF ±5%. 5V, C0G Ceramic Capacitor (0402) GRM1555C1H390J Murata R1, R3-R5, R8, R9, R12, R13, R14, R15 13 0 Ohm, 1/10W, Resistor (0402) ERJ-2GE0R00X Panasonic R16 2 390 Ohm ±1%, 1/10W, Resistor (0402) ERJ-2RKF3900X Panasonic R10 1 1.74 kOhm ±1%, 1/10W, Resistor (0402) ERJ-2RKF1741X Panasonic 4 390nH ±5%, 0.29 A, Ceramic Chip Inductor (0805) 0805CS-391XJL Coilcraft T2 2 4:1 Center Tap Balun TC4-6TG2+ Mini-Circuits J7 1 CONN HEADER VERT DBL 4POS GOLD 67997-108HLF FCI J1, J4, J9 3 Edge Launch SMA Connector (Big) 142-0701-851 Emerson Johnson J8 1 Edge Launch SMA Connector (Small) 142-0711-821 Emerson Johnson U1 1 RF Dual Wideband Gain-Settable Downconverting Mixer 4x4 TQFN24 F1192NLGI Renesas 1 Printed Circuit Board F1192 EVKIT REV 01 Renesas C3, C7, C9, C11, C22 C4, C8, C10, C12, C19, C20, C23 C21 C1, L3, L4 Power Supplies A common VCC power supply should be used for all pins requiring DC power. All supply pins should be bypassed with external capacitors to minimize noise and fast transients. Supply noise can degrade noise figure and fast transients can trigger ESD clamps and cause them to fail. Supply voltage change or transients should have a slew rate smaller than 1V/20µs. In addition, all control pins should remain at 0V (±0.3V) while the supply voltage ramps or while it returns to zero. © 2022 Renesas Electronics Corporation 28 February 9, 2022 F1792 Datasheet Control Pin Interface If control signal integrity is a concern and clean signals cannot be guaranteed due to overshoot, undershoot, ringing, etc., provisions for an RC circuit at the input of each control pin is recommended. This applies to pins 11, 12, and 19 as shown below. 5Kohm STBY 2pf 24 23 22 21 20 19 1 18 2 17 3 16 IDTF1792 Exposed pad (GND) 4 15 5 14 6 13 7 8 9 11 10 5Kohm 12 5Kohm Gain_Select2 Gain_Select1 2pf 2pf Gain Select F1792 provides a gain select feature requiring 2 pins for logic control. The following table summarizes the required pin logic to achieve the desired gain setting. Internal pull down resistors are included requiring no control to set both channels to maximum gain. Desired Power Gain (dB) Gain Select1 (Pin 11) # Gain Select2 (Pin 12) 11 0 0 8 0 1 5 1 0 2 1 1 Default Start-up Upon start-up, the device gain will be whatever the gain select pins are set for as defined in the table above. © 2022 Renesas Electronics Corporation 29 February 9, 2022 F1792 Datasheet Package Outline Drawings The package outline drawings are located at the end of this document and are accessible from the Renesas website (see Ordering Information for POD links). The package information is the most current data available and is subject to change without revision of this document. Ordering Information Orderable Part Number Package MSL Rating Shipping Packaging Temperature F1792NLGI 4 x 4 x 0.9 mm 24-VFQFPN MSL1 Tray -40° to +85°C F1792NLGI8 4 x 4 x 0.9 mm 24-VFQFPN MSL1 Tape and Reel -40° to +85°C Marking Diagram Part Number F1792GI YD1536G ASM Test Step Assembler Code Q40A017Y Lot Code Date Code [YYWW] (Week 36 of 2015) Revision History Revision Date February 9, 2022 December 13, 2019 April 5, 2016 Description of Change Rebranded to Renesas. Corrected a typo in logic current unit in Table 4.  Updated the package outline drawings; however, no mechanical changes  First release (Rev O) of the F1792 datasheet. © 2022 Renesas Electronics Corporation 30 February 9, 2022