QPF46 37 4. GHz GaN Front End Module Product Description The QPF46 is a multi-function Gallium Nitride MMIC front-end module targeted for 39 GHz phased array G base stations and terminals. The device combines a low noise high linearity LNA, a low insertion-loss high-isolation TR switch, and a high-gain high-efficiency multi-stage PA. The QPF46 operates from 37 GHz to 4. GHz range. The receive path (LNA+TR SW) is designed to provide 18dB of gain and a noise figure less than 4. db. The transmit path (PA+SW) provides 23 db of small signal gain and a saturated output power of 2 W. The compact 4. mm x 4. mm surface mount package configuration is designed to meet the tight lattice spacing requirements for phased array applications. The QPF46 is fabricated on Qorvo s.1um GaN on SiC process. It is housed in an air-cavity laminate package with an embedded copper heat slug. The copper slug, coupled with a low thermal resistance die-attach process, allows the QPF46 to operate at the extreme case temperatures needed in phased array applications. Functional Block Diagram Product Features Frequency Range: 37 4. GHz RX Noise Figure: 4.2 db RX Small Signal Gain: 18 db RX Saturated Power: 17 dbm RX TOI : 2 dbm @ - dbm Pin / tone TX Small Signal Gain: 23 db TX Saturated Power: 33 dbm TX TOI: 42 dbm @ 24 dbm Pout / tone TX ACPR: 32dBc @ 24dBm average Pout 2 TX Linearity: 4% EVM @ 24 dbm average Pout 2 TX PAE: 7% @ 24 dbm average Pout. Package Dimensions: 4. x 4. x 1.8 mm 1. Performance is typical at room temperature. 2. OFDM, 4 MHz modulation bandwidth, 64QAM. Applications G Wireless Base stations and terminals Point to Point Communications Part No. Description QPF46SR Tape and Reel, Qty 1 QPF46EVB3 QPF46 Evaluation Board Data Sheet Rev. F, May 23, 218 Subject to change without notice - 1 of 22 - www.qorvo.com
QPF46 37 4. GHz GaN Front End Module Normal Operating Conditions Parameter Drain Voltage Value Drain Current (TXIDQ12 / TXIDQ3) 13 ma / 24 ma * Drain Current (RX, IDQ) Gate Voltage (TXVG12/TXVG3) 2 V 1 ma 2 V / -2.4 V Gate Voltage (RXVG) -2 V Control Voltage (TXSW, RXSW) TXSW = V, RXSW = 2V (RX on, TX off) TXSW = 2 V, RXSW = V (RX off, TX on) Operating Temperature Range 4 to 9 C Gate voltage shown are typical, can be adjusted to set required drain current. Electrical specifications are measured at specified test conditions. Specifications are not guaranteed over all recommended operating conditions. * Other current settings: 4 / 6 ma = 1 ma; 9 / 12 ma = 21 ma; 13 / 18 ma = 31 ma (gate controls combined together). Electrical Specifications RX Test conditions, unless otherwise noted: VD = 2 V, IDQ = 1 ma. Data de-embedded to device reference planes, 2 C Parameter Min Typical Max Units Frequency 37 4. GHz Small Signal Gain 18 db Noise Figure 4.2 db Saturated Output Power 17 dbm Input Return Loss 12 db Output Return Loss 1 db Output TOI, @ - dbm Pin / tone, 1 MHz tone spacing 2 dbm Gain Temperature Coefficient.6 db/ C Electrical Specifications TX Test conditions unless otherwise noted: VD = 2 V, TXIDQ12 / TXIDQ3 = 13mA / 24 ma Data de-embedded to device reference planes, 2 C Parameter Min Typical Max Units Frequency 37 4. GHz Small Signal Gain 23 db Saturated Output Power 33 dbm Input Return Loss 12 db Output Return Loss 13 db Output TOI, @ 24dBm Pout / tone, 1 MHz tone spacing 42 dbm ACPR (24 dbm average power, OFDM, 4MHz, 64QAM) -32 dbc EVM (24 dbm average power, OFDM, 4MHz, 64QAM) 4 % PAE at average output power (24dBm) 7 % Gain Temperature Coefficient.112 db/ C Data Sheet Rev. F, May 23, 218 Subject to change without notice - 2 of 22 - www.qorvo.com
S12 (db) S22 (db) S11 (db) Gain (db) Performance Plots, Small Signal, Receive Path QPF46 37 4. GHz GaN Front End Module Test Conditions unless otherwise stated: RXVD = 2 V, RXIDQ = 1 ma, Data de-embedded to device reference planes, 2C - Input Return Loss vs Temp - 4 C + 2 C + 8 C 24 22 Gain vs Temp - 4 C + 2 C + 8 C -1-2 -3 36 37 38 39 4 41 2 18 16 14 12 1 36 37 38 39 4 41-3 Reverse Isolation vs Temp - 4 C + 2 C + 8 C Output Return Loss vs Temp - 4 C + 2 C + 8 C - -3-1 -4-2 -4-36 37 38 39 4 41-3 36 37 38 39 4 41 Data Sheet Rev. F, May 23, 218 Subject to change without notice - 3 of 22 - www.qorvo.com
S22 (db) S22 (db) S11 (db) S11 (db) Gain (db) Gain (db) Performance Plots, Small Signal, Receive Path QPF46 37 4. GHz GaN Front End Module Test Conditions unless otherwise stated: RXVD = 2 V, RXIDQ = 1 ma, Data de-embedded to device reference planes, 2 C 24 22 Gain vs Voltage 18 V 2 V 22 V 24 22 Gain vs Current 1 ma 1 ma 2 2 18 16 14 12 1 36 37 38 39 4 41 18 16 14 12 1 36 37 38 39 4 41 Input Return Loss vs Voltage 18 V 2 V 22 V Input Return Loss vs Current 1 ma 1 ma - - -1-1 -2-2 -3 36 37 38 39 4 41-3 36 37 38 39 4 41 Output Return Loss vs Voltage 18 V 2 V 22 V Output Return Loss vs Current 1 ma 1 ma - - -1-1 -2-2 -3 36 37 38 39 4 41-3 36 37 38 39 4 41 Data Sheet Rev. F, May 23, 218 Subject to change without notice - 4 of 22 - www.qorvo.com
NF (db) NF (db) NF (db) Performance Plots, Noise Figure, Receive Path QPF46 37 4. GHz GaN Front End Module Test Conditions unless otherwise stated: RXVD = 2 V, RXIDQ = 1 ma, Data de-embedded to device reference planes, 2 C 8 Noise Figure vs Temp 7 6 4 3 2 1-4 C + 2 C + 8 C 36 37 38 39 4 41 8 Noise Figure vs Voltage 8 Noise Figure vs Current 7 7 6 6 4 4 3 3 2 2 1 18 V 2 V 22 V 36 37 38 39 4 41 1 1 ma 1 ma 36 37 38 39 4 41 Data Sheet Rev. F, May 23, 218 Subject to change without notice - of 22 - www.qorvo.com
Drain Current (ma) Power Gain (dbm) Psat (dbm) Psat (dbm) Performance Plots, Large Signal, Receive Path QPF46 37 4. GHz GaN Front End Module Test Conditions unless otherwise stated: RXVD = 2 V, RXIDQ = 1 ma, CW. Data de-embedded to device reference planes, 2 C 2 Psat vs Temperature 2 Psat vs Voltage 18 18 16 16 14 14 12-4 C + 2 C + 8 C 1 37 38 39 4 12 2 V 22 V 18 V 1 37 38 39 4 2 Power Gain vs Pin vs Freq 2 Pout vs Pin vs Freq 1 1 1 37 GHz 38 GHz 39 GHz 4 GHz -2-1 - 1 Pin (dbm) 1 37 GHz 38 GHz 39 GHz 4 GHz - -2-1 - 1 Pin (dbm) 2 Pout vs Pin vs Temp 4 Drain Current vs Pin vs Freq 1 3 3 1 Freq = 39 GHz - 4 C + 2 C + 8 C - -2-1 - 1 Pin (dbm) 2 2 1 1 37 GHz 38 GHz 39 GHz 4 GHz -2-1 - 1 Pin (dbm) Data Sheet Rev. F, May 23, 218 Subject to change without notice - 6 of 22 - www.qorvo.com
IMD3 (dbc) IMD (dbc) OTOI (dbm) OTOI (dbm) QPF46 37 4. GHz GaN Front End Module Performance Plots, Linearity, Receive Path Test Conditions unless otherwise stated: RXVD = 2 V, RXIDQ = 1 ma, Tone spacing: 1 MHz Data de-embedded to device reference planes, 2 C RX OTOI vs Freq vs Temp 2 24 Pin = - dbm / tone 23 22 21 2 19 18 17 16-4 C + 2 C + 8 C 1 37 38 39 4 RX OTOI vs Freq vs Voltage 2 24 Pin = - dbm / tone 23 22 21 2 19 18 17 16 18 V 2 V 22 V 1 37 38 39 4-1 -2 RX IMD3 vs Pout vs Freq 37 GHz 38 GHz 39 GHz 4 GHz -1-2 -3 RX IMD vs Pout vs Freq 37 GHz 38 GHz 39 GHz 4 GHz -3-4 -4 - - -6-7 -6-8 -6-4 -2 2 4 6 8 1 12 14-8 -8-6 -4-2 2 4 6 8 1 12 14 Data Sheet Rev. F, May 23, 218 Subject to change without notice - 7 of 22 - www.qorvo.com
S12 (db) S22 (db) S11 (db) Gain (db) Performance Plots, Small Signal, Transmit Path Test Conditions unless otherwise stated: TXVD = 2 V, TXIDQ12 = 13 ma, TXIDQ3 = 24 ma Data de-embedded to device reference planes QPF46 37 4. GHz GaN Front End Module Input Return Loss vs Temp - -1-2 - 4 C + 2 C + 8 C -3 36 37 38 39 4 41 Gain vs Temp 32 3 28 26 24 22 2 18 16 14 12-4 C + 2 C + 8 C 1 36 37 38 39 4 41-4 -4 - - Reverse Isolation vs Temp - 4 C + 2 C + 8 C - -1 Output Return Loss vs Temp - 4 C + 2 C + 8 C -6-6 -7-7 -2-8 36 37 38 39 4 41-3 36 37 38 39 4 41 Data Sheet Rev. F, May 23, 218 Subject to change without notice - 8 of 22 - www.qorvo.com
S22 (db) S22 (db) S11 (db) S11 (db) Gain (db) Gain (db) Performance Plots, Small Signal, Transmit Path Test Conditions unless otherwise stated: TXVD = 2 V, TXIDQ12 = 13 ma, TXIDQ3 = 24 ma Data de-embedded to device reference planes, 2 C QPF46 37 4. GHz GaN Front End Module 32 3 Gain vs Voltage + 18 V + 2 V + 22 V 32 3 Gain vs Current 1 ma 19 ma 21 ma 28 28 26 26 24 24 22 22 2 2 18 18 16 16 14 14 12 12 1 36 37 38 39 4 41 1 36 37 38 39 4 41 Input Return Loss vs Voltage + 18 V + 2 V + 22 V Input Return Loss vs Current 1 ma 19 ma 21 ma - - -1-1 -2-2 -3 36 37 38 39 4 41-3 36 37 38 39 4 41 Output Return Loss vs Voltage + 18 V + 2 V + 22 V Output Return Loss vs Current 1 ma 19 ma 21 ma - - -1-1 -2-2 -3 36 37 38 39 4 41-3 36 37 38 39 4 41 Data Sheet Rev. F, May 23, 218 Subject to change without notice - 9 of 22 - www.qorvo.com
Psat (dbm) Psat (dbm) Psat (dbm) Performance Plots, Large Signal, Transmit Path QPF46 37 4. GHz GaN Front End Module Test Conditions unless otherwise stated: TXVD = 2 V, TXIDQ12 = 13 ma, TXIDQ3 = 24 ma, Pulse Mode: PW = 1 us, DC = 1% Data de-embedded to device reference planes, 2 C 37 Psat vs Temperature 3 33 31 29 27-4 C + 2 C + 8 C 2 36 37 38 39 4 41 37 Psat vs Voltage 37 Psat vs Current 3 3 33 33 31 31 29 29 27 18 V 2 V 22 V 2 36 37 38 39 4 41 27 1 ma 19 ma 21 ma 31 ma 2 36 37 38 39 4 41 Data Sheet Rev. F, May 23, 218 Subject to change without notice - 1 of 22 - www.qorvo.com
PAE (%) PAE (%) Power Gain (dbm) Drain Current (ma) Performance Plots, Large Signal, Transmit Path QPF46 37 4. GHz GaN Front End Module Test Conditions unless otherwise stated: TXVD = 2 V, TXIDQ12 = 13 ma, TXIDQ3 = 24 ma, Pulse Mode: PW = 1 us, DC = 1% Data de-embedded to device reference planes. 2C 4 3 Freq = 39 GHz Pout vs Pin vs Temp 4 3 Pout vs Pin vs Freq 3 3 2 2 2 2 1 1 1 1-4 C + 2 C + 8 C - -1-1 1 2 Pin (dbm) 37 GHz 38 GHz 39 GHz 4 GHz - -1-1 1 2 Pin (dbm) 3 Power Gain vs Pin vs Freq 8 Drain Current vs Pin vs Freq 2 2 7 6 1 4 1 37 GHz 38 GHz 39 GHz 4 GHz -1-1 1 2 Pin (dbm) 3 2 1 37 GHz 38 GHz 39 GHz 4 GHz -1-1 1 2 Pin (dbm) 2 PAE vs Pin vs Freq 37 GHz 38 GHz 39 GHz 4 GHz 2 PAE vs Pout vs Freq 37 GHz 38 GHz 39 GHz 4 GHz 2 2 1 1 1 1-1 - 1 1 2 Pin (dbm) 1 1 2 2 3 3 Data Sheet Rev. F, May 23, 218 Subject to change without notice - 11 of 22 - www.qorvo.com
IMD3 (dbc) IMD (dbc) OTOI (dbm) OTOI (dbm) QPF46 37 4. GHz GaN Front End Module Performance Plots, Linearity, Transmit Path Test Conditions unless otherwise stated: TXVD = 2 V, TXIDQ12 = 13 ma, TXIDQ3 = 24 ma, Tone Spacing = 1 MHz Data de-embedded to device reference planes, 2 C Pout = 24 dbm / tone OTOI vs Freq vs Temp Pout = 24 dbm / tone OTOI vs Freq vs VD 4 4 4 4 3 3-4 C + 2 C + 8 C 3 37 38 39 4 18 V 2 V 3 37 38 39 4-1 -2 IMD3 vs Pout vs Freq 37 GHz 38 GHz 39 GHz 4 GHz -1-2 -3 IMD vs Pout vs Freq 37 GHz 38 GHz 39 GHz 4 GHz -3-4 -4 - - -6-7 -6 14 16 18 2 22 24 26 28 3-8 14 16 18 2 22 24 26 28 3 Data Sheet Rev. F, May 23, 218 Subject to change without notice - 12 of 22 - www.qorvo.com
ACPR Low (dbc) ACPR High (dbc) ACPR Low (dbc) ACPR High (dbc) ACPR Low (dbc) ACPR High (dbc) Performance Plots, Modulated Signal, Transmit Path QPF46 37 4. GHz GaN Front End Module Test Conditions unless otherwise stated: TXVD = 2 V, TXIDQ12 = 13 ma, TXIDQ3 = 24 ma, Source: 4 MHz OFDM, 64 QAM Data de-embedded to device reference planes, 2 C -2 ACPR Low vs Pout vs Temp - 4 C + 2 C + 8 C Freq = 39 GHz -2 ACPR High vs Pout vs Temp - 4 C + 2 C + 8 C Freq = 39 GHz -3-3 -3-3 -4-4 -4 1 1 2 2 3 3-4 1 1 2 2 3 3-2 ACPR Low vs Pout vs Freq 37 GHz 39 GHz 38 GHz 4 GHz -2 ACPR High vs Pout vs Freq 37 GHz 39 GHz 38 GHz 4 GHz -3-3 -3-3 -4-4 -4 1 1 2 2 3 3-4 1 1 2 2 3 3 ACPR Low vs Pout vs Current 1 ma 19 ma 21 ma 31 ma ACPR High vs Pout vs Current 1 ma 19 ma 21 ma 31 ma -2 Freq = 39 GHz -2 Freq = 39 GHz -3-3 -3-3 -4-4 -4 1 1 2 2 3 3-4 1 1 2 2 3 3 Data Sheet Rev. F, May 23, 218 Subject to change without notice - 13 of 22 - www.qorvo.com
EVM (%) EVM (%) PAR (db) PAR (db) Performance Plots, Modulated Signal, Transmit Path QPF46 37 4. GHz GaN Front End Module Test Conditions unless otherwise stated: TXVD = 2 V, TXIDQ12 = 13 ma, TXIDQ3 = 24 ma, Source: 4 MHz OFDM, 64 QAM Data de-embedded to device reference planes, 2 C 14 12 PAR vs Pout vs Temp - 4 C + 2 C + 8 C 14 12 PAR vs Pout vs Freq 37 GHz 39 GHz 38 GHz 4 GHz 1 1 8 6 4 8 6 4 2 PAR above.1 % of Signal Level, Freq = 39 GHz 1 1 2 2 3 3 2 PAR above.1 % of Signal Level 1 1 2 2 3 3 1 9 8 EVM vs Pout vs Temp - 4 C + 2 C + 8 C Freq: 39 GHz 1 9 8 EVM vs Pout vs Frequency 37 GHz 38 GHz 39 GHz 4 GHz 7 7 6 6 4 4 3 3 2 2 1 1 2 4 6 8 1 12 14 16 18 2 22 24 26 28 3 2 4 6 8 1 12 14 16 18 2 22 24 26 28 3 Data Sheet Rev. F, May 23, 218 Subject to change without notice - 14 of 22 - www.qorvo.com
Pdiss (W) Current (ma) PAE (%) PAE (%) Power Gain (db) Power Gain (db) Performance Plots, Modulated Signal, Transmit Path QPF46 37 4. GHz GaN Front End Module Test Conditions unless otherwise stated: TXVD = 2 V, TXIDQ12 = 13 ma, TXIDQ3 = 24 ma, Source: 4 MHz OFDM, 64 QAM Data de-embedded to device reference planes, 2 C 3 Power Gain vs Pout vs Temp - 4 C + 2 C + 8 C 3 Power Gain vs Pout vs Freq 37 GHz 39 GHz 38 GHz 4 GHz 3 3 2 2 2 2 1 1 1 Freq = 39 GHz 1 1 2 2 3 3 1 1 1 2 2 3 3 2 PAE vs Pout vs Temp - 4 C + 2 C + 8 C 2 PAE vs Pout vs Freq 37 GHz 39 GHz 38 GHz 4 GHz 2 Freq = 39 GHz 2 1 1 1 1 1 1 2 2 3 3 1 1 2 2 3 3 Freq = 39 GHz 1 8 Pdiss vs Pout vs Temp - 4 C + 2 C + 8 C Freq = 39 GHz 4 3 3 Current vs Pout vs Temp - 4 C + 2 C + 8 C Freq = 39 GHz 6 4 2 2 2 1 1 1 1 2 2 3 3 1 1 2 2 3 3 Data Sheet Rev. F, May 23, 218 Subject to change without notice - 1 of 22 - www.qorvo.com
QPF46 37 4. GHz GaN Front End Module Mechanical Drawings & Pad Descriptions Dimensions in mm Part Marking: QPF46: Part Number YY = Part Assembly Year WW = Part Assembly Week MXXX = Batch ID Pin Number Label Description 1, 2, 4,, 13, 1, 17, slug GND GROUND 3 ANT Antenna 14 RXOUT Receive output 16 TXIN Transmit input 18 RXVG Receive gate control 19 RXVD Receive Drain Voltage 2 TXVG12 Transmit stage 1 and 2 gate controls 21 TXVG3 Transmit stage 3 gate control 22 TXVD Transmit Drain Voltage 23 TXSW Transmit switch control 24 RXSW Receive switch control 6, 7, 8, 9, 1, 11, 12 N/C No internal connection Data Sheet Rev. F, May 23, 218 Subject to change without notice - 16 of 22 - www.qorvo.com
Evaluation Board and Assembly QPF46 37 4. GHz GaN Front End Module RF Layer is.8 thick Rogers Corp. RO43C (εr = 3.3). Metal layers are. oz. copper. The microstrip line at the connector interface is optimized for the Southwest Microwave end launch connector 1492-4A-. Ref. Des. Component Value Manuf. Remark C2, C4, C6, C8, C1 SMT Cap. CAP, 42 1pF +/-1% V 42 X7R ROHS Various Red C1, C3, C, C7, C9 SMT Cap. CAP, 126 1.uF +/-1% V X7R ROHS Various Grey R2, R4, R6 - R1 SMT Res. RES, 42.1 OHM, % V, ROHS Various Green R1, R3, R SMT Res. RES, 42 OHM, %, ROHS Various Pink Data Sheet Rev. F, May 23, 218 Subject to change without notice - 17 of 22 - www.qorvo.com
QPF46 37 4. GHz GaN Front End Module Application Circuit Bias-up Procedure Bias-down Procedure 1. Set drain supply TXVD limit to 7 ma, RXVD limit to ma, gate and control supply limit to 1 ma each. 1. Turn off RF signal 2. Set TXVG12, TXVG3, RXVG to V 2. Set TXVG12, TXVG3 and RXVG to V 3. Set TXSW = 2 V (or V), RXSW = V (or 2 V) 3. Set VD = V 4. Set VD = +2 V 4. Turn off drain supply. For TX, adjust TXVG12 to get TXID12 current, then. Turn off TXSW, RXSW adjust TXVG3 to achieve required total drain current; For RX, adjust RXVG to achieve required drain 6. Turn off gate supply current. 6. Apply RF signal Data Sheet Rev. F, May 23, 218 Subject to change without notice - 18 of 22 - www.qorvo.com
Median Lifetime, T M (Hours) Thermal and Reliability Information QPF46 37 4. GHz GaN Front End Module Parameter Test Conditions Value Units Thermal Resistance (θjc) (1) TX on, RX off, CW, VD = +2 V, IDQ = 19 ma, 18.68 C/W Channel Temperature (TCH) (Quiescent) TBASE = 8 C, 14.38 C Median Lifetime (TM) RF off, PDISS =3.18 W.3E+9 Hrs Thermal Resistance (θjc) (1) TX on, RX off, CW, VD = +2 V, IDQ = 19 ma, 13.6 C/W Channel Temperature (TCH) (under RF drive) TBASE = 8 C, Freq = 39 GHz, PIN = 1 dbm, POUT = 2 dbm, 18.84 C Median Lifetime (TM) PDISS = 4.69 W, ID_Drive =.2 A 3.3E+9 Hrs Thermal Resistance (θjc) (1) RX on, TX off, CW, VD = +2 V, IDQ = 1 ma, 66.67 C/W Channel Temperature (TCH) (Quiescent) TBASE = 8 C, 11 C Median Lifetime (TM) RF off, PDISS =.3 W.7E+11 Hrs Notes: 1. Thermal resistance measured to back of package. Median Lifetime Test Conditions: VD = +28 V; Failure Criteria = 1 % reduction in ID_MAX during DC Life Testing 1E+1 1E+14 1E+13 1E+12 1E+11 1E+1 1E+9 1E+8 1E+7 1E+6 1E+ 1E+4 FET16 (QGaN1) Median Lifetime vs. T CH 7 1 12 1 17 2 22 2 27 Channel Temperature, T CH ( C) Data Sheet Rev. F, May 23, 218 Subject to change without notice - 19 of 22 - www.qorvo.com
QPF46 37 4. GHz GaN Front End Module Absolute Maximum Ratings Parameter Drain Voltage (TXVD, RXVD) Drain Current (TXID3+TXID12) Drain Current (RXID) Gate Voltage (RXVG, TXVG3, TXVG12) Gate Current (RXIG, TXIG3, TXIG12) Switch Control Voltage (TXSW, RXSW) Switch Control Current RF Input Power (All RF ports, 8 C) Value 28 V 8 ma 6 ma to V 2 ma to 28 V 2 ma 3 dbm Channel Temperature, TCH 22 C Mounting Temperature (3 seconds) 26 C Storage Temperature to 1 C Operation of this device outside the parameter ranges given above may cause permanent damage. These are stress ratings only, and functional operation of the device at these conditions is not implied. Extended application of Absolute Maximum Rating conditions to the device may reduce device reliability. Solderability and Recommended Soldering Profile 1. Compatible with the latest version of J-STD-2, Lead-free solder, 26 C. 2. The use of no-clean solder to avoid washing after soldering is recommended. Data Sheet Rev. F, May 23, 218 Subject to change without notice - 2 of 22 - www.qorvo.com
QPF46 37 4. GHz GaN Front End Module Tape and Reel Information Standard T/R size = 1 pieces on a 7 reel. Material Cavity (mm) Distance Between Centerline (mm) Carrier Tape (mm) Cover Carrier (mm) Vendor Vendor P/N Length (A) Width (B) Depth (K) Pitch (P1) Length direction (P2) Width Direction (F) Width (W) Width (W) Tek-Pak QFN4X 4C 4.2 4.7 2.1 8. 2.. 12. 9.2 Data Sheet Rev. F, May 23, 218 Subject to change without notice - 21 of 22 - www.qorvo.com
QPF46 37 4. GHz GaN Front End Module Handling Precautions Parameter Rating Standard ESD Human Body Model (HBM) TBD ESDA / JEDEC JS-1-212 ESD Charged Device Model (CDM) TBD ESDA / JEDEC JS-2-214 MSL Convection Reflow 26 C TBD JEDEC standard IPC/JEDEC J-STD-2 Caution! ESD-Sensitive Device RoHS Compliance This product is compliant with the 211/6/EU RoHS directive (Restrictions on the Use of Certain Hazardous Substances in Electrical and Electronic Equipment), as amended by Directive 21/863/EU. This product also has the following attributes: Lead Free Halogen Free (Chlorine, Bromine) Antimony Free TBBP-A (C1H12Br42) Free PFOS Free SVHC Free Contact Information For the latest specifications, additional product information, worldwide sales and distribution locations: Tel: 1-844-89-8163 Web: www.qorvo.com Email: customer.support@qorvo.com For technical questions and application information: Email: appsupport@qorvo.com Important Notice The information contained herein is believed to be reliable; however, Qorvo makes no warranties regarding the information contained herein and assumes no responsibility or liability whatsoever for the use of the information contained herein. All information contained herein is subject to change without notice. Customers should obtain and verify the latest relevant information before placing orders for Qorvo products. The information contained herein or any use of such information does not grant, explicitly or implicitly, to any party any patent rights, licenses, or any other intellectual property rights, whether with regard to such information itself or anything described by such information. THIS INFORMATION DOES NOT CONSTITUTE A WARRANTY WITH RESPECT TO THE PRODUCTS DESCRIBED HEREIN, AND QORVO HEREBY DISCLAIMS ANY AND ALL WARRANTIES WITH RESPECT TO SUCH PRODUCTS WHETHER EXPRESS OR IMPLIED BY LAW, COURSE OF DEALING, COURSE OF PERFORMANCE, USAGE OF TRADE OR OTHERWISE, INCLUDING THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE. Without limiting the generality of the foregoing, Qorvo products are not warranted or authorized for use as critical components in medical, life-saving, or life-sustaining applications, or other applications where a failure would reasonably be expected to cause severe personal injury or death. Copyright 218 Qorvo, Inc. Qorvo is a registered trademark of Qorvo, Inc. Data Sheet Rev. F, May 23, 218 Subject to change without notice - 22 of 22 - www.qorvo.com