TQP3M9036 Ultra Low Noise, High Linearity LNA RFMD + TriQuint = Qorvo Applications Repeaters Mobile Infrastructure LTE / WCDMA / CDMA / GSM General Purpose Wireless TDD or FDD systems 8-Pin 2x2 mm DFN Package Product Features Functional Block Diagram 100−2000 MHz Operational Bandwidth Ultra low noise figure, 0.45 dB NF at 900 MHz High gain, 19.8 dB Gain at 900 MHz High linearity, +36 dBm Output IP3 High input power ruggedness, >22 dBm PIN, MAX Unconditionally stable Integrated on-chip matching, 50 ohm in/out Integrated active bias Integrated shutdown control pin 3-5 V positive supply voltage: −Vgg not required Pin compatible with high-band TQP3M9037 Pin 1 Reference Mark NC 1 8 NC RF In 2 7 RF Out NC 3 6 Shut Down NC 4 5 NC Backside Paddle - RF/DC GND General Description Pin Configuration The TQP3M9036 is a high linearity, ultra low noise gain block amplifier in a small 2x2 mm surface-mount package. At 900 MHz, the amplifier typically provides high 19.8 dB gain, +36 dBm OIP3, and 0.45 dB Noise Figure while drawing 68 mA current from a 5V supply. The amplifier does not require any negative supplies for operation and can be biased from positive supply rails from 3.3 to 5 V. The device is housed in a lead-free/green/RoHScompliant industry-standard 2x2 mm package. The TQP3M9036 is internally matched using a high performance E-pHEMT process and only requires 4 external components for operation from a single positive supply: an external RF choke and blocking/bypass capacitors. The low noise amplifier contains an internal active bias to maintain high performance over temperature and integrates a shut-down biasing capability for TDD applications. The TQP3M9036 covers the 100−2000 MHz frequency band and is targeted for wireless infrastructure. The LNA is pin compatible with the high-band, 1500−2700 MHz TQP3M9037. Pin No. Label 1, 3, 4, 5, 8 2 6 7 Backside Paddle No Connect or GND RF In Shut Down RF Out RF/DC GND Ordering Information Part No. Description TQP3M9036 TQP3M9036−PCB Ultra low noise, High IP3 LNA 100−2000 MHz Evaluation Board Standard T/R size = 2500 pieces on a 7” reel Datasheet: Rev G 06-08-15 © 2015 TriQuint Semiconductor, Inc - 1 of 13 - Disclaimer: Subject to change without notice www.triquint.com / www.qorvo.com TQP3M9036 Ultra Low Noise, High Linearity LNA RFMD + TriQuint = Qorvo Absolute Maximum Ratings Recommended Operating Conditions Parameter Rating Parameter Min Typ Storage Temperature Supply Voltage (VDD) RF Input Power, CW, 50Ω,T = 25°C −65 to 150°C +7 V +22 dBm Supply Voltage (VDD) TCASE TJ (for >106 hours MTTF) +3.3 −40 +5 Operation of this device outside the parameter ranges given above may cause permanent damage. Max Units +5.25 +105 190 V °C °C Electrical specifications are measured at specified test conditions. Specifications are not guaranteed over all recommended operating conditions. Electrical Specifications Test conditions unless otherwise noted: VDD = +5V, Temp=+25°C, 50 Ω system. Parameter Operational Frequency Range Test Frequency Gain Input Return Loss Output Return Loss Output P1dB Output IP3 Conditions Min 18.2 Note 1 Note 1 Pout=+5 dBm/tone, Δf=1 MHz +32 Noise Figure Power Shutdown Control (Pin 6) Current, IDD Shutdown pin current, ISD Thermal Resistance, θjc Typ 100 On state Off state (Power down) On state Off state (Power down) VPD ≥ 3 V channel to case 900 19.8 13 11 +20 +36 0.45 0 2.5 40 3.3 68 3 140 62 Max Units 2000 MHz MHz dB dB dB dBm dBm dB V 21.2 0.75 0.4 VDD 90 4 V mA mA µA °C/W Notes: 1. Input and output return loss can be improved to better than 15 dB with minimal impact on noise figure by adjusting the values of the bias inductor and output DC blocking capacitor. Refer to the Optimized Return Loss reference design on page 7. 2. Current can be reduced by operating at a lower device voltage. (example: Idd=50 mA at Vdd=4 V) Datasheet: Rev G 06-08-15 © 2015 TriQuint Semiconductor, Inc - 2 of 13 - Disclaimer: Subject to change without notice www.triquint.com / www.qorvo.com TQP3M9036 Ultra Low Noise, High Linearity LNA RFMD + TriQuint = Qorvo Device Characterization Data S-Parameters Test conditions unless otherwise noted: VDD=+5 V, IDD=68 mA (typ.), Temp=+25°C, 50 Ohm system Freq (MHz) S11 (dB) S11 (ang) S21 (dB) S21 (ang) S12 (dB) S12 (ang) S22 (dB) S22 (ang) 50 100 200 400 600 800 1000 1200 1400 1600 1800 2000 2200 2400 2600 2800 -7.1 -7.3 -8.0 -9.8 -11.4 -12.6 -13.6 -14.4 -14.9 -15.4 -15.7 -15.9 -16.2 -16.4 -16.7 -16.9 -11.1 -13.5 -20.6 -30.6 -34.6 -36.2 -36.1 -35.7 -34.8 -33.9 -33.2 -32.6 -32.1 -31.3 -30.5 -29.6 28.4 28.1 27.2 24.8 22.5 20.6 19.0 17.6 16.4 15.4 14.4 13.6 12.8 12.1 11.5 10.9 167.9 160.6 145.9 124.1 109.8 99.5 91.3 84.4 78.3 72.7 67.6 62.8 58.2 53.8 49.5 45.3 -33.8 -33.5 -32.6 -30.1 -27.5 -25.4 -23.7 -22.2 -20.9 -19.9 -18.9 -18.0 -17.2 -16.4 -15.8 -15.1 13.3 16.7 28.7 45.5 53.1 56.2 56.8 56.4 55.1 53.4 51.4 49.3 47.0 44.6 42.0 39.4 -22.8 -20.1 -15.8 -12.4 -11.3 -10.9 -10.6 -10.5 -10.4 -10.3 -10.2 -10.2 -10.2 -10.2 -10.2 -10.3 -2.8 27.8 32.8 17.7 4.5 -5.8 -14.5 -22.1 -29.2 -35.6 -41.6 -47.2 -52.9 -58.3 -63.6 -69.2 Noise Parameters Test conditions unless otherwise noted: VDD=+5 V, IDD=68 mA (typ.), Temp=+25°C, 50 Ohm system Freq (MHz) NFmin (dB) MagOpt (mag) AngOpt (deg) Rn (Ω) 700 900 1100 1300 1500 1700 0.356 0.452 0.415 0.406 0.377 0.346 0.187 0.174 0.140 0.142 0.116 0.115 10.9 22.2 12.1 23.7 -6.64 23.6 0.062 0.060 0.061 0.062 0.069 0.062 Datasheet: Rev G 06-08-15 © 2015 TriQuint Semiconductor, Inc - 3 of 13 - Disclaimer: Subject to change without notice www.triquint.com / www.qorvo.com TQP3M9036 Ultra Low Noise, High Linearity LNA RFMD + TriQuint = Qorvo Application Circuit – TQP3M9036-PCB J5 J4 C4 J3 J3 VDD R 3 1 uF J4 GND C3 L1 C4 C3 C1 100 pF L1 68 nH (0603) C2 C2 U1 R1 R2 J1 RF Input C1 2 7 Q1 6 100 pF 100 pF J2 RF Output 1,3,4,5,8 R2 33k C5 R1 10k C6 J5 PD See note 6. Resistors are not needed if shut-down functionality is not used. Notes: 1. See Evaluation Board PCB Information section for material and stack-up. 2. R3 (0 Ω jumper) is not shown on the schematic and may be replaced with copper trace in the target application layout. 3. All components are of 0402 size unless stated on the schematic. 4. C1, C2, and C3 are non-critical values. The reactive impedance should be as low as possible at the frequency of operation for optimal performance. 5. The L1 value is non-critical and needs to provide high reactive impedance at the frequency of operation. 6. R1 and R2 are optional and do not need to be loaded if the shut-down functionality is not needed; i.e. FDD applications. If R1 and R2 are not loaded, the LNA will operate in its standard “ON” state. 7. A through line is included on the evaluation board for board loss measurement and de-embedding. Bill of Material − TQP3M9036-PCB Reference Des. Value Description Manuf. Part Number N/A U1 R1 R2 R3 L1 C4 C1, C2, C3, C5, C6 J3, J4, J5 N/A n/a 10K Ω 33K Ω 0Ω 68 nH 1.0 uF 100 pF n/a Printed Circuit Board Ultra Low Noise, High Linearity LNA Resistor, Chip, 0402, 5%, 1/16W Resistor, Chip, 0402, 5%, 1/16W Resistor, Chip, 0402, 5%, 1/16W Inductor, 0603, 5%, Ceramic Cap., Chip, 0402, 10%, 10V, X5R Cap., Chip, 0402, 5%, 50V, NPO/COG Solder Turret TriQuint TriQuint various various various various various various various 1084112 TQP3M9036 various various various various various various various Datasheet: Rev G 06-08-15 © 2015 TriQuint Semiconductor, Inc - 4 of 13 - Disclaimer: Subject to change without notice www.triquint.com / www.qorvo.com TQP3M9036 Ultra Low Noise, High Linearity LNA RFMD + TriQuint = Qorvo Γopt and S11* TQP3M9036 0.8 1.0 Conj(S(1,1)) Swp Max 2. 0 0. 6 0.91GHz GMN() 0. 3. 0 4 4. 0 5.0 S11* 0.2 10.0 5.0 4.0 3.0 2.0 1.0 0.8 0.6 0.4 0 0.2 10.0 -10.0 2 0 .0 .0 0 2. -1.0 -0.8 - .6 -0 Datasheet: Rev G 06-08-15 © 2015 TriQuint Semiconductor, Inc ΓOPT -3 .4 -4 -0 -5. -0. - 5 of 13 - Swp Min 0.9GHz Disclaimer: Subject to change without notice www.triquint.com / www.qorvo.com TQP3M9036 Ultra Low Noise, High Linearity LNA RFMD + TriQuint = Qorvo Typical Performance – TQP3M9036-PCB VDD = 5 V, 25ºC Parameter Conditions Typical Test conditions unless otherwise noted: VDD = +5 V, IDD = 68 mA (typ.), Temp=+25°C Frequency Gain Input Return Loss Output Return Loss Output P1dB Output IP3 Noise figure Pout= +5 dBm/tone, Δf=1 MHz Units Value 700 20.8 -11.2 -10.4 +21 +34.2 900 19.1 -12.7 -11.0 +20 +35.2 1500 15.1 -14.3 -11.1 +20 +36 2000 13 -13.5 -8.6 +21 +37 MHz dB dB dB dBm dBm 0.38 0.4 0.44 0.52 dB (1) Notes: 1. Noise figure data shown in the table above is de-embedded from the eval board loss. Performance Plots – TQP3M9036-PCB VDD = 5 V Test conditions unless otherwise noted: VDD = +5 V, IDD = 68 mA, TCASE = +25°C, 50 Ω system Gain vs. Frequency 27 Input Return Loss vs. Frequency 0 Output Return Loss vs. Frequency 0 +85°C 23 Gain (dB) +25°C 21 40°C 19 17 15 -5 Output Return Loss (dB) Input Return Loss (dB) 25 +85°C +25°C -10 40°C -15 -20 13 11 -25 600 800 1000 1200 1400 1600 1800 2000 600 800 Frequency (MHz) 1200 Noise Figure (dB) 700 MHz 800 MHz 900 MHz 30 25 1400 1600 1800 2000 400 0.8 +25°C 0.6 0.4 7 9 11 1600 1800 2000 +25°C −40°C 0.6 0.4 400 800 1200 1600 2000 400 600 800 Idd vs. Shutdown Voltage 90 1000 1200 1400 1600 1800 2000 Frequency (MHz) Frequency (MHz) Temp.=+25°C 1400 0 0 K Factor vs. Frequency 1200 0.2 0 5 1000 +85°C +85°C Pout/Tone (dBm) Gain vs. Frequency (Shut-Down Mode) 0 VDD = +5 V VPD = +3.3 V 75 4 +85°C -10 +25°C 60 2 40°C Gain (dB) 3 Idd (mA) K Factor 800 Noise Figure vs. Frequency 1 −40°C 20 5 600 Frequency (MHz) 0.2 3 -15 Board losses de-embeded 0.8 1 40°C Board losses de-embeded 35 OIP3 (dBm) 1000 Noise Figure vs. Frequency 1 Temp.=+25°C -1 +25°C -10 Frequency (MHz) OIP3 vs. Pout/tone 40 +85°C -20 400 Noise Figure (dB) 400 -5 45 30 -20 -30 1 15 0 0 0 2 4 6 8 10 12 14 16 Frequency (MHz) Datasheet: Rev G 06-08-15 © 2015 TriQuint Semiconductor, Inc 18 20 -40 0 1 2 3 Shutdown Voltage (V) - 6 of 13 - 4 5 0 1000 2000 3000 4000 Frequency (MHz) Disclaimer: Subject to change without notice www.triquint.com / www.qorvo.com TQP3M9036 Ultra Low Noise, High Linearity LNA RFMD + TriQuint = Qorvo Typical Performance − TQP3M9036-PCB VDD = 3.3 V Parameter Conditions Typical Test conditions unless otherwise noted: VDD=+3.3 V, IDD=45 mA (typ.), Temp=+25°C Frequency Gain Input Return Loss Output Return Loss Output P1dB Output IP3 Noise figure Pout= +5 dBm/tone, Δf=1 MHz Units Value 700 21 10.6 11.8 +17.7 +31.1 900 19.3 12.2 11.5 +18.1 +31.7 1500 15.3 14.3 10 +20.5 +32.9 2000 12.8 13.8 8.7 +20.7 +33.7 MHz dB dB dB dBm dBm 0.38 0.4 0.44 0.52 dB (1) Notes: 1. Noise figure data shown in the table above is de-embedded from the eval board loss. Performance Plots – TQP3M9036-PCB VDD = 3.3 V Test conditions unless otherwise noted: VDD =+3.3 V, IDD = 45 mA, TCASE = +25°C, 50 Ω system Gain vs. Frequency 27 Input Return Loss vs. Frequency 0 Temp.=+25°C Output Return Loss vs. Frequency 0 Temp.=+25°C Temp.=+25°C Gain (dB) 23 21 19 17 15 -5 Output Return Loss (dB) Input Return Loss (dB) 25 -10 -15 -20 13 11 -25 400 600 800 1000 1200 1400 1600 1800 2000 600 800 1200 1400 1600 1800 2000 25 20 800 6 Pout/Tone (dBm) Datasheet: Rev G 06-08-15 © 2015 TriQuint Semiconductor, Inc 7 1000 1200 1400 1600 8 1800 2000 K Factor vs. Frequency 5 0.8 4 0.6 3 0.4 Temp.=+25°C 2 1 0 0 5 600 Frequency (MHz) 0.2 4 400 K Factor Noise Figure (dB) 900 MHz 3 -20 Board losses de-embeded 35 OIP3 (dBm) 1000 Noise Figure vs. Frequency 1 Temp.=+25°C 2 -15 Frequency (MHz) OIP3 vs. Pout/tone 30 -10 -25 400 Frequency (MHz) 40 -5 400 600 800 1000 1200 1400 Frequency (MHz) - 7 of 13 - 1600 1800 2000 0 2 4 6 8 10 12 14 16 18 20 Frequency (MHz) Disclaimer: Subject to change without notice www.triquint.com / www.qorvo.com TQP3M9036 Ultra Low Noise, High Linearity LNA RFMD + TriQuint = Qorvo Reference Design – 690-920 MHz Optimized Return Loss The following reference design provides improved input/output return loss in the 690-920 MHz band. This covers the low frequency UL bands. C4 J5 J3 J4 J3 VDD 1 uF R 3 C3 J4 GND L1 C4 C3 J1 C1 100 pF L1 18 nH (0603) J2 C2 U1 J1 R1 R2 RF Input C1 C2 2 6 100 pF J2 7 Q1 4.3 pF RF Output 1,3,4,5,8 R2 33k J6 C5 J7 C6 J5 PD R1 10k Bill of Material Reference Des. L1 C1, C3, C5, C6 C2 C4 R1 R2 R3 Value 18 nH 100 pF 4.3 pF 1.0 uF 10K Ω 33K Ω 0Ω Description IND, 0603, 5%, CAP, 0402, 5%, 50V, NPO/COG CAP, 0402, ± 0.1 pF, 25V, ACCU-P CAP, 0402, 10%, 10V, NPO, X5R RES, 0402, 5%, 1/16W RES, 0402, 5%, 1/16W RES, 0402, 5%, 1/16W Manuf. Coilcraft various AVX various various various various Part Number 0603HP-18NXJL 04023J4R3BBSTR RF Performance Plots Gain vs. Frequency 23 20 19 35 OIP3 (dBm) 21 OIP3 vs. Pout/tone 37 -5 Return Loss (dB) 22 Gain (dB) Return Loss vs. Frequency 0 -10 -15 33 31 680 MHz 720 MHz -20 760 MHz 29 820 MHz Input Return Loss Output Return Loss 18 865 MHz 920 MHz -25 690 736 782 828 874 920 27 690 736 Frequency (MHz) 782 828 874 920 Frequency (MHz) 3 4 5 6 7 Pout/Tone (dBm) Noise Figure vs. Frequency 1 Noise Figure (dB) 0.8 0.6 0.4 0.2 0 690 736 782 828 874 920 Frequency (MHz) Datasheet: Rev G 06-08-15 © 2015 TriQuint Semiconductor, Inc - 8 of 13 - Disclaimer: Subject to change without notice www.triquint.com / www.qorvo.com TQP3M9036 Ultra Low Noise, High Linearity LNA RFMD + TriQuint = Qorvo Reference Design – 860-960 MHz Optimized Return Loss The following reference design provides improved output return loss in the 860-960 MHz band. This is achieved via adjustment of the values of the existing bias inductor and output DC blocking capacitor. Notes: 1. See Evaluation Board PCB Information section for material and stack-up. 2. R3 (0 Ω jumper) is not shown on the schematic and may be replaced with copper trace in the target application layout. 3. All components are of 0402 size unless stated on the schematic. 4. Distance from the right edge of U1 to the left edge of C2 is 115 mils. 5. C1 and C3 are non-critical values. The reactive impedance should be as low as possible at the frequency of operation for optimal performance. 6. R1 and R2 are optional and do not need to be loaded if the shut-down functionality is not needed; i.e. FDD applications. 7. If R1 and R2 are not loaded, the LNA will operate in its standard “ON” state. 8. A through line is included on the evaluation board for board loss measurement and de-embedding. Bill of Material Reference Des. Value Description Manuf. Part Number n/a n/a Printed Circuit Board TriQuint U1 n/a TQP3M9036 Sample TriQuint TQP3M9036 04025U4R7BAT2A L1 C1, C3, C5, C6 C2 12 nH 100 pF 4.7 pF IND, 0603, 5%, CHIP CAP, 0402, 5%, 50V, NPO/COG CAP, 0402, ± 0.1 pF, 50V, U-Series various various AVX C4 R1 R2 1.0 uF 10K Ω 33K Ω CAP, 0402, 10%, 10V, NPO, X5R RES, 0402, 5%, 1/16W RES, 0402, 5%, 1/16W various various various R3 0Ω RES, 0402, 5%, 1/16W various RF Performance Plots Gain vs. Frequency 25 Return Loss vs. Frequency 0 Temp.=+25°C 21 19 17 Temp.=+25°C -5 0.8 Noise Figure (dB) |S11| or |S22| (dB) Gain (dB) 23 S22 -10 S11 -15 -20 15 880 900 920 940 Frequency (MHz) Datasheet: Rev G 06-08-15 © 2015 TriQuint Semiconductor, Inc 960 0.6 0.4 0.2 -25 860 Noise Figure vs. Frequency 1 Temp.=+25°C 0 860 880 900 920 Frequency (MHz) - 9 of 13 - 940 960 860 880 900 920 940 960 Frequency (MHz) Disclaimer: Subject to change without notice www.triquint.com / www.qorvo.com TQP3M9036 RFMD + TriQuint = Qorvo Ultra Low Noise, High Linearity LNA Switching Speed Switching Speed Measurement based on TQS Application Board Using Shutdown Circuit: VPD=5V, VDD=5V Parameter Turn-off Transition (50% TTL – 10% RF) Turn-on Transition (50% TTL – 90% RF) Measurements 0.5 1.0 Units µs µs Turn-Off (50% TTL – 10% RF) Freq = 900 MHz FM = 1 kHz Pout = 5 dBm/tone Control Signal RF Signal Turn-On (50% TTL – 90% RF) Control Signal Freq = 900 MHz FM = 1 kHz Pout = 5 dBm/tone RF Signal Note: 1. Reducing input series capacitance (C1) will improve the switching speed. Datasheet: Rev G 06-08-15 © 2015 TriQuint Semiconductor, Inc - 10 of 13 - Disclaimer: Subject to change without notice www.triquint.com / www.qorvo.com TQP3M9036 Ultra Low Noise, High Linearity LNA RFMD + TriQuint = Qorvo Pin Configuration and Description Pin 1 Reference Mark NC 1 8 NC RF In 2 7 RF Out NC 3 6 Shut Down NC 4 5 NC Backside Paddle - RF/DC GND Pin No. Label Description 2 RF In 6 Shut Down 7 RF Out / DCBias 1, 3, 4, 5, 8 NC Backside Paddle RF/DC GND RF Input pin. A DC Block is required. A high voltage turns off the device. If the pin is not connected or is less than 1V, then the device will operate under its normal operating condition. RF Output pin. DC bias will also need to be injected through a RF bias choke/inductor for operation. No electrical connection. Provide grounded land pads for PCB mounting integrity. RF/DC ground. Use recommended via pattern to minimize inductance and thermal resistance; see PCB Mounting Pattern for suggested footprint. Evaluation Board PCB Information TriQuint PCB 1084112 Material and Stack-up 1 oz. Cu top layer 0.010" Rogers 4350B 1 oz. Cu inner layer 0.062" ± 0.006" Finished Board Thickness Rogers 4450F 1 oz. Cu inner layer 0.010" Rogers 4350B 1 oz. Cu bottom layer 50 ohm line dimensions: width = .020”, spacing = .032” Datasheet: Rev G 06-08-15 © 2015 TriQuint Semiconductor, Inc - 11 of 13 - Disclaimer: Subject to change without notice www.triquint.com / www.qorvo.com TQP3M9036 RFMD + TriQuint = Qorvo Ultra Low Noise, High Linearity LNA Mechanical Information Package Marking and Dimensions Marking: Part number – 9036 Lot Code – XXXX NOTES: 1. All dimensions are in millimeters. Angles are in degrees. 2. Except where noted, this part outline conforms to JEDEC standard MO-220, Issue E (Variation VGGC) for thermally enhanced plastic very thin fine pitch quad flat no lead package (QFN). 3. Dimension and tolerance formats conform to ASME Y14.4M-1994. 4. The terminal #1 identifier and terminal numbering conform to JESD 95-1 SPP-012. PCB Mounting Pattern NOTES: 1. All dimensions are in millimeters. Angles are in degrees. 2. Use 1 oz. copper minimum for top and bottom layer metal. 3. Vias are required under the backside paddle of this device for proper RF/DC grounding and thermal dissipation. We recommend a 0.35mm (#80/.0135") diameter bit for drilling via holes and a final plated thru diameter of 0.25 mm (0.10”). 4. Ensure good package backside paddle solder attach for reliable operation and best electrical performance. Datasheet: Rev G 06-08-15 © 2015 TriQuint Semiconductor, Inc - 12 of 13 - Disclaimer: Subject to change without notice www.triquint.com / www.qorvo.com TQP3M9036 Ultra Low Noise, High Linearity LNA RFMD + TriQuint = Qorvo Product Compliance Information ESD Sensitivity Ratings Solderability Compatible with both lead-free (260 °C max. reflow temperature) and tin/lead (245 °C max. reflow temperature) soldering processes. Caution! ESD-Sensitive Device Package contact plating: NiPdAu ESD Rating: Value: Test: Standard: Class 1B Passes ≥ 500 V to < 1000V Human Body Model (HBM) JEDEC Standard JESD22-A114 ESD Rating: Value: Test: Standard: Class C2 Passes ≥ 500 V to <1000V Charged Device Model (CDM) JEDEC Standard JESD22-C101 This part is compliant with EU 2002/95/EC RoHS directive (Restrictions on the Use of Certain Hazardous Substances in Electrical and Electronic Equipment). RoHs Compliance MSL Rating MSL Rating: Level 1 Test: 260°C convection reflow Standard: JEDEC Standard IPC/JEDEC J-STD-020 This product also has the following attributes: Lead Free Halogen Free (Chlorine, Bromine) Antimony Free TBBP-A (C15H12Br402) Free PFOS Free SVHC Free Contact Information For the latest specifications, additional product information, worldwide sales and distribution locations, and information about TriQuint: Web: www.triquint.com Email: info-sales@tqs.com Tel: Fax: +1.503.615.9000 +1.503.615.8902 For technical questions and application information: Email: sjcapplications.engineering@tqs.com Important Notice The information contained herein is believed to be reliable. TriQuint makes no warranties regarding the information contained herein. TriQuint assumes no responsibility or liability whatsoever for any of the information contained herein. TriQuint assumes no responsibility or liability whatsoever for the use of the information contained herein. The information contained herein is provided "AS IS, WHERE IS" and with all faults, and the entire risk associated with such information is entirely with the user. All information contained herein is subject to change without notice. Customers should obtain and verify the latest relevant information before placing orders for TriQuint 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. TriQuint 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. Datasheet: Rev G 06-08-15 © 2015 TriQuint Semiconductor, Inc - 13 of 13 - Disclaimer: Subject to change without notice www.triquint.com / www.qorvo.com