MAMF-011069 Dual Channel SW/LNA Module for 5G M-MIMO GND RF Antenna Ch1 RXoutput Ch1 32 GND GND LNA Stg1 Ch1 RFin LNA Ch1 Vbias Enable GND 25 1 24 LNA Ch1 RFout & Vd Stg2 GND CHANNEL ONE GND GND GND GND CHANNEL TWO GND GND Txinput Ch2 LNA Ch2 RFout & Vd Stg2 8 17 9 16 GND RF Antenna Ch2 GND RXoutput Ch2 LNA Stg1 Ch2 RFin GND LNA Ch2 Vbias Enable MAMF-011069 Tuned for the 3.5 GHz Application GND GND TXinput Ch1 GND LNA Stg1 Ch2 Vd > Covers 1.9 - 3.9 GHz > Dual Channel architecture - 2 x 2-Stage Low Noise Amplifiers - S2 x High power (20W CW) switches > 31 dB Gain > 1.5 dB Noise Figure > Lead-Free 5 x 5 mm 32 Lead QFN Package > Samples available LNA Stg1 Ch1 Vd Features GND MAGe-102425-300S00 without Isolator 300 W @ 2400-2500 MHz Features > VDS = 50 V > IDQ = 200 mA > Freq. = 2400 - 2500 MHz > TCASE = 35 C > P2dB > 289 W > GP > 15.6 dB @ P2dB > D > 70.8% @ P2dB > Continuous Wave MAGe-102425-300S00 with Isolator 300 W @ 2400-2500 MHz Features > VDS = 50 V > IDQ = 200 mA > Freq. = 2400 - 2500 MHz > TCASE = 35 C > P2dB > 288 W > GP > 15.8 dB @ P2dB > D > 68.6% @ P2dB > Continuous Wave *Performance above is including circulator losses MAGe-100027-010S0P + MAGe-102425-300S0P + circulator 2 Stage 300 W; 2400-2500 MHz Features > VDS = 50 V > Freq. = 2400 - 2500 MHz > TWATER = 20 C > P2dB > 275 W > GP > 28.4 dB @ P2dB > D > 63% @ P2dB > Continuous Wave Frequenc y (GHz) Gain (dB) Pout. (dBm) Pout (W) Eff. (%) Plate Temp. (C) 2400 28.41 54.41 275.9 63.2 27.9 2425 28.44 54.44 277.8 63.6 27.6 2450 28.42 54.42 276.9 63.8 27.7 2475 28.44 54.44 277.9 64.0 27.7 2500 28.44 54.44 277.8 63.5 28.0 *Performance above includes circulator losses MAGe-100809-500G00 500 W @ 896-928 MHz Features > VDS = 50 V > IDQ = 380 mA > Freq. = 910 - 920 MHz > TCu = 35 C > P2dB > 508 W > GP > 16.35 dB @ P2dB > D > 80% @ P2dB > Continuous Wave MAGX-100027-015S0P 15 W @ 2400-2500 MHz Features > VDS = 50 V > IDQ = 45 mA > Freq. = 2400 - 2500 MHz > TWATER = 20 C > P2dB > 15 W > GP > 15 dB @ P2dB > D > 66% @ P2dB > Continuous Wave MAGe-102425-050S0P 50 W @ 2400-2500 MHz Features > VDS = 50 V > IDQ = 75 mA > Freq. = 2400 - 2500 MHz > TWATER = 20 C > P2dB > 60 W > GP > 17 dB @ P2dB > D > 70% @ P2dB > Continuous Wave Symbol Parameter Freq. Frequency VDS Supply Voltage 50 V I DQ Quiescent Current 75 mA Pout Output power CW @ 31.0 dBm Pin. G Gain @ 31.0 dBm Pin Gcomp. Gain compression @ 31.0 dBm Pin Eff Efficiency @ 31.0 dBm Pin. Min. Typ. 2.4 Max. Unit 2.5 GHz 62.9 65.3 17.0 17.15 1.9 2.2 70.7 71.3 W dB dB % MAGe-100027-002S0P + MAGe-102425-050S0P 2 Stage 50 W; 2400-2500 MHz Features > VDS = 50 V > Freq. = 2400 - 2500 MHz > TWATER = 20 C > P2dB > 60 W > GP > 28.5 dB @ P2dB > D > 69% @ P2dB > Continuous Wave Frequency (GHz) Gain (dB) Gain Comp. (dB) Pout. (dBm) Pout (W) Eff. (%) 2.40 30.49 2.0 47.99 63.0 69.8 2.425 30.49 1.8 47.99 63.0 70.4 2.45 30.50 1.7 48.00 63.0 70.2 2.475 30.51 1.6 48.01 63.3 69.8 2.50 30.55 1.7 48.05 63.9 69.4 *Performance above includes output coupler losses RFE Energy Tool-kit Enabling Engagement Easy to Use MACOM user friendly RF Energy tool-kit, enabling fast TTM Beta hardware designed and testing ongoing at selected customers Live demo: 30 W plasma jet & 300 W plasma jet ADLL signal controller and software (MACOM ALL & small signal DLL) Customer Application 2-stage 50 W and 300 W GaN-Si PA's (air cooled) Fwd and Rev power detector Power supply MACOM Development Tool Kits Easy to use application "development tool kits" Functionality: all attributes (frequency, level, phase and PWM modulation) of the generated RF signal can be controlled either by the embedded powerful micro controller or from external (host-) controller. Hot switch between DLL and ALL PA Module Line-ups * * Controllers Couplers Control Soware & App Dev High efficiency Gen4 GaN-Si * * * Analog Single channel (ALL) Digital Mul-channel (DLL) Or both combined (ADLL) * One standard design for all kits * Applicaon dependant versions Power levels: 50 W (2,45 GHz) 300 W (2.45 GHz) 500 W (915 MHz) * ALL: key feature is fast feedback loop (usec) 2.45 GHZ DLL: key feature is flexibility however with a slower feedback loop (msec) 2.45 GHz & 915 MHz High power robust coupler. * Partners such as pinkRF can support customer directly * Plasma Lighting Application Using 2-Stage Gen4 GaN on Si RF Energy Module MACOM Gen4 GaN on Si > All Plastic Packaging Lineup > Driver: MAGe-100825-002 > Final: MAGe-102425-050 > VDS = 30 V (50 V Capable) > Freq. = 2.4 - 2.5 GHz > POUT > 30 W (Continuous Wave) > Power Gain = 33 dB (CW) > Line-up Drain Efficiency = 67% (CW) > Integrated FWD and REV Power Detection > Using MACOM Proprietary Exciter and Controller PIN = 15 mW MAGe-100825-002 POUT = 30 W MAGe-102425-050 Solid-State Cooking Application Using 2-Stage Gen4 GaN on Si RF Energy Module Easy To Use Gen4 GaN on Si Enables Excellent Cooking MACOM Gen4 GaN on Si > All Plastic Packaging Lineup > Driver: MAGe-100825-010 > Final: MAGe-102425-300 > VDS = 50 V > Freq. = 2.4 - 2.5 GHz > POUT > 300 W (Continuous Wave) > Power Gain = 33 dB (CW) > Line-up Drain Efficiency = 67% (CW) > Integrated FWD and REV Power Detection > Using MACOM Proprietary Exciter and Controller Solid-State Cooking MAGX-100027-010SOP 150 W @ 960-1215 MHz Features > VDS = 50 V > IDQ = 20 mA > Freq. = 960 - 1215 MHz > TCASE = 25 C > P2dB > 14 W > GP > 18.5 dB @ 10 W > D > 56% @ 10 W Signal > CW MAGX-100914-125 125 W @ 960-1215 MHz Features > VDS = 50 V > IDQ = 100 mA > Freq. = 960 - 1215 MHz > TCASE = 25 C > P2dB > 135 W > GP > 16.7 dB @ P2dB > D > 73% @ P2dB Signal > 300 usec, 10% duty MAGX-100914-125 125 W @ 1200-1400 MHz Features > VDS = 50 V > IDQ = 100 mA > Freq. = 1200 - 1400 MHz > TCASE = 25 C > P2dB > 150 W > GP > 15.1 dB @ P2dB > D > 71% @ P2dB Signal > 300 usec, 10% duty MAGX-100914-250 250 W @ 960-1215 MHz Gain (dB) > VDS = 50 V > IDQ = 200 mA > Freq. = 960 - 1215 MHz > TCASE = 25 C > P2dB > 330 W > GP > 18.2 dB @ P2dB > D > 68% @ P2dB Signal > 300 usec, 10% duty 23 80 22 70 21 60 20 50 19 40 18 30 17 20 16 15 48 49 Gain_960 Gain_1090 Gain_1215 Eff_960 Eff_1090 Eff_1215 50 51 52 53 Output Power [dBm] 54 10 55 56 0 Drain Efficiency (%) Features MAGX-100914-250 250 W @ 1200-1400 MHz Gain (dB) > VDS = 50 V > IDQ = 200 mA > Freq. = 1200 - 1400 MHz > TCASE = 25 C > P2dB > 295 W > GP > 18.7 dB @ P2dB > D > 68% @ P2dB Signal > 300 usec, 10% duty 23 80 22 70 21 60 20 50 19 40 18 30 17 20 16 15 48 49 Gain_1200 Gain_1300 Gain_1400 Eff_1200 Eff_1300 Eff_1400 50 51 52 53 Output Power [dBm] 54 10 55 56 0 Drain Efficiency (%) Features MAGX-100912-500 500 W @ 1030-1090 MHz Features > VDS = 50 V > IDQ = 200 mA > Freq. = 1030 - 1090 MHz > TCASE = 25 C > P2dB > 295 W > GP > 17.5 dB @ P2dB > D > 72.5% @ P2dB Signal > 300 usec, 10% duty > Mode -S MAGX-101214-500 500 W @ 1200-1400 MHz Features > VDS = 50 V > IDQ = 200 mA > Freq. = 1200 - 1400 MHz > TCASE = 25 C > P2dB > 500 W > GP > 15.5 dB @ P2dB > D > 69% @ P2dB Signal > 300 usec, 10% duty MAGP-102730-350 350 W @ 2700-3000 MHz Features > VDS = 50 V > IDQ = 100 mA > Freq. = 2700 - 3000 MHz > TCASE = 25 C > P2dB > 380 W > GP > 13 dB @ P2dB > D > 55% @ P2dB Signal > 150 usec, 10% duty MAGX-103135-145 150 W @ 3100-3500 MHz Features > VDS = 50 V > IDQ = 100 mA > Freq. = 3100 - 3500 MHz > TCASE = 25 C > P2dB > 170 W > GP > 13.3 dB @ P2dB > D > 53% @ P2dB Signal > 200 usec, 20% duty Non-Linear Transmission Line Comb Generators NLTL Comb Generators offer five key advantages relative to "typical SRD" products: > Lower Phase Noise - improved phase noise performance of multiplied source > Lower Input Power - reduced PA requirements and power consumption > Range of Input Frequency - enables use of single part in several designs or use with a tunable source (up to 3x instead of a few %) > Higher Harmonic Power at Higher Frequencies - SRD-based comb generators output power rapidly rolls off above 20 GHz > Reliable Construction - based on monolithic circuits Part Number Power (dBm) Min Output Harmonics (dBm) Max MLPNC-7100-SMA800 20 @ 100 MHz 24 @ 400 MHz > -8 @ 4 GHz > -18 @ 12 GHZ > -35 @ 20 GHz MLPNC-7100-SMT680 20 @ 100 MHz 24 @ 400 MHz > -8 @ 4 GHz > -18 @ 12 GHZ > -35 @ 20 GHz N/A MLPNC-7100S1-SMA800 18 @ 75 MHz 24 @ 250 MHz > -24 @ 4 GHz N/A MPLNC-7100S1-SMT580 18 @ 75 MHz 24 @ 250 MHz > -24 @ 4 GHz N/A N/A MLPNC-7102-SMA800 21 @ 400 MHz 23 @ 600 MHz > -8 @ 4 GHz > -16 @ 12 GHZ > -20 @ 20 GHz MLPNC-7102-SMT680 21 @ 400 MHz 23 @ 600 MHz > -8 @ 4 GHz > -16 @ 12 GHZ > -20 @ 20 GHz MLPNC-7102S1-SMA800 18 @ 300 MHz 24 @ 700 MHz > -10 @ 4 GHz > -22 @ 12 GHz N/A MLPNC-7102S1-SMT580 18 @ 300 MHz 24 @ 700 MHz > -10 @ 4 GHz > -22 @ 12 GHz N/A MLPNC-7103-SMA800 21 @ 800 MHz 23 @ 1.3 GHz > -5 @ 6 GHz > -15 @ 18 GHZ > -20 @ 30 GHz MLPNC-7103-SMT680 21 @ 800 MHz 23 @ 1.3 GHz > -5 @ 6 GHz > -15 @ 18 GHZ > -20 @ 30 GHz MLPNC7103S1-SMA800 18 @ 600 MHz 24 @ 1.5 GHz > 0 @ 4 GHz > -14 @ 15 GHz N/A MLPNC7103S1-SMT580 18 @ 600 MHz 24 @ 1.5 GHz > 0 @ 4 GHz > -14 @ 15 GHz N/A MACOM Standard Catalog RF and Microwave Signal Processing Hybrid Components and Passive Products > RF and Microwave Amplifiers > Signal Limiters and Limiting Amplifiers > Analog and Digital Voltage Controlled > > > > > > Attenuators RF and Microwave Mixers Stripline Couplers, Power Dividers, and Combiners Junction Hybrids RF Switches, Attenuators with Drivers (SMT) Drivers Heritage Component Product Lines - Watkins-Johnson - Stellex Microwave Systems - Adams Russell/Anzac/RHG - Phoenix Microwave - Omni-Spectra > Screening available on Standard Hybrid > Component Products Passive 50 OHM Products - Transformers - Mixers - Power Dividers - Couplers New High Performance Surface Mount 26 - 40 GHz SPDT Switch MASW-011098 Key Attributes > Wideband Performance > Surface Mount for easy integration > Low Insertion Loss / High Isolation > Up to 13 W CW Power Handling > Well matched (20 dB Return Loss) Insertion Loss over Temperature Ideal for 5G Applications Isolation over Forward Bias Current New Silicon Based Solutions Extend High Performance Narrowband VCO Portfolio Key Attributes Feature: MAOC-113100 > Low current consumption (90 - 120 mA) > Excellent phase noise performance > Industry standard footprint > Cost effective Silicon > Custom frequency variants with quick turn Recent additions to the MACOM portfolio include: Part # Freq (GHz) Typical PN @ 10 kHz Offset Typical PN @ 100 kHz Offset MAOC-113100 12.5 - 13.7 -81 -109 MAOC-112675 12.2 - 13.15 -81 -109 MAOC-111100 10.8 - 11.415 -88 -113 MAOC-110820 10.55 - 11.05 -88 -113 Ask how MACOM can address your VCO needs Complete Portfolio of Wireless Access Front-End Components and Modules N/C MAAL-011078 MAIA-011002 MABC-011026 (High gain, up to 6 GHz) (High Power Switch + LNA) (DC - DC and Switch/LNA Bias Controller) 32 1 8 RF IN N/C N/C Bias CKT 2 x 2 mm PDFN N/C 31 30 29 28 27 26 1 24 RF OUT /VDD 2 23 N/C 3 22 4 21 5 20 6 19 7 18 8 17 VBias 9 10 11 12 13 14 15 5 x 5 mm QFN MAAL-010704 (High Linearity) 25 MASW-000834 (50 W) MASW-000932 (80 W) MASW-000936 (120 W) 16 5 x 5 mm QFN MADR-009150 (Switch Bias Controller) 2 x 2 mm SOT-363 4 x 4 mm QFN 3 x 3 mm QFN Compact Tx and Rx FEMs for 5G M-MIMO Applications MAGb-103436-025S0M GaN on Si PA > Freq: 3.4 - 3.6 GHz > Pavg = 3 W > Psat > 44 dBm > IBW > 100 MHz > Eff > 37% @ 35 dBm > Gain > 27 dB > ACPR > 26 dBc MAGb-103436-025S0M MAMF-011069 Dual LNA/Switch > Freq: 1.8 - 3.9 GHz > Gain > 31 dB > NF < 1.5 dB > OIP3 > 35 dBm > ISO Rx-Rx: >45 dB > Vds = 5 V > Ids < 200 mA > Power handling > 20 W MAGb-103436-025S0M New Voltage Variable Attenuator Covering 5 - 45 GHz MAAV-011013 Key Attributes > Medium power handling > Surface Mount for easy integration > Small footprint (3 mm x 3 mm) > Excellent dynamic range (> 30 dB) > High Linearity (30 dBm IIP3) Insertion Loss v's Control Voltage Input IP3 vs. Attenuation, SCL PIN = 12 dBm Wideband Performance for Multiple Applications Fast MRI Protection Diode MADP-009989-14320T (Surface Mount MELF Diode) MADP-009989-14340T (Axial Leaded Diode) Key Attributes > Ultra Low-Magnetic Construction > Glass Package > High Current Handling > Surface Mount or Axial Leaded Versions Available > Low loss / High Isolation K/Ka-Band SP4T Switch MASW-011087 Key Attributes > Operating Frequency 14 - 38 GHz > Integrated Bias Network > Broadband Performance > Low Loss/ High Isolation > Small Cell Backhaul Applications 40 W B3 GaN on Si Basestation Applications High Efficiency Opens New Opportunities For Basestation MAGb-101822-360A0P > Asymmetrical Doherty > Plastic TO-272S-4 Package > Freq. = 1805 - 1880 MHz B3, Vds = 50 V > Peak Power > 350 W > @ POUT = 47.5 dBm (7.8 dB OBO) - w/ 1C LTE 7.5 dB PAR - dEff > 54% - Gain = 16 dB > @ POUT = 48.3 dBm (7 dB OBO) - w/ 1C LTE 7.5 dB PAR - dEff > 56% - Gain = 15.5 dB TO-272S-4 60 W B5 GaN on Si Basestation Applications MAGb-100710-550S0S > Symmetrical Doherty > Freq. = 869 - 894 MHz B5, Vds = 50 V > Peak Power > 550 W > @ POUT = 49.5 dBm ( 8.1 dB OBO) - w/ 1C LTE 7.5 dB PAR - dEff > 57% - Gain = 19.5 dB > @ POUT = 50.6 dBm (7 dB OBO) - w/ 1C LTE 7.5 dB PAR - dEff > 60% - Gain = 19.2 dB Ceramic AC-780S-4 Package Family of New Broadband VCOs > Best in Class Phase Noise > Excellent Temperature Stability > +5 V Bias Operation > Low Current Consumption > Lead-Free 24-Lead 4 mm QFN Package 4 x 4 mm QFN Package Pre-Release In Development Part Number 10-20 GHz MAOC-415000 7-14 GHz MAOC-410100 MAOC-409000 6-12 GHz MAOC-409150 5.8-12.5 GHz Vtune 5-10 GHz MAOC-407500 Vcc 4-8 GHz MAOC-406000 3-6 GHz MAOC-404500 2-4GHz MAOC-403000 DC 5 RF 10 Frequency (GHz) 15 20 Family of New Wideband Low Noise Amplifiers DC-40 GHz > Fully Matched Across Band > Positive Bias Operation > 2 mm and 5 mm QFN Packages 2 x 2 mm DFN Package Released Pre-Release Noise Figure (dB) Part Number and Frequency MAAL-011129, 18-31 GHz 2.5 2.0 MAAL-011130, 2-18 GHz MAAL-011141-DIE, DC-26.5 GHz 1.5 MAAL-011141, DC-26.5 GHz 5 10 15 20 Frequency (GHz) 25 30 35 5 x 5 mm QFN Package Wired Broadband Family of New Single Ended Wideband Amplifiers 75 Single Ended Amplifier Family Application Schematic > 5-1218 MHz > 5 V with adjustable current bias > Flat gain response across the full band > Downstream or Upstream applications > Layout compatible product family > Industry standard SOT-89 lead free package MAAM-011162 Gain Parameter Units MAAL-011139 MAAM-011162 MAAM-011251 MAAM-011258 Frequency MHz 5-1218 5-1218 5-1218 5-1218 Gain dB 21.5 18 15 12 Noise Figure dB 1.2 2.0 2.3 2.5 IRL/ORL dB 23/23 20/20 18/20 18/20 OIP2 dBm 42 48 48 48 OIP3 dBm 34 36 37 37 P1dB dBm 19 19 18 18 Voltage V 5 5 5 5 Current mA 85 110 100 100 Wired Broadband Family of New Differential Wideband Amplifiers 75 Differential Amplifier Family Application Schematic > 5-1218 MHz > 5 V with adjustable current bias > Flat gain response across the band > Downstream or Upstream applications > Layout compatible product family > Industry standard SOIC-8EP lead free package MAAM-011163 Gain Parameter Units MAAM-011163 MAAM-0111240 MAAM-011250 Frequency MHz 5-1218 5-1218 5-1218 Gain dB 19 17 15 Noise Figure dB 2.4 2.6 2.8 IRL/ORL dB 20/20 20/20 20/20 OIP2 dBm 62 63 63 OIP3 dBm 42 44 44 P1dB dBm 25 25 25 Voltage V 5 5 5 Current mA 290 290 290 E-Band Tx & Rx Modules > Wideband 71 - 86 GHz Performance > Surface Mount for easy integration (all high frequency components contained within module enabling the use of low cost radio board material) > Waveguide I/P (Rx) & O/P (Tx) > Tx module integrates IQ Mixer, O/P Driver Amplifier, > Rx Module integrates IQ Mixer, LNA, LOx8 Multiplier & LO Buffer Amplifiers > Direct Conversion or IF Operation > Excellent Turn down performance > Matching VCO Solutions available O/P Power Amplifier , LOx8 Multiplier, LO Buffer Amplifiers & Power Detectors MAMF-011057 Psat @ 21.4 Mhz IF MADC-011014 Input IP3 @ 21.4 MHz IF MAMF-011057 Tx Module, MADC-011014 Rx Module