HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz Features • Crest Factor (Peak-to-Average Power Ratio) • Supports Controller Mode Measurement • ± 1 dB Detection Accuracy to 3.9 GHz • Envelope-to-Average Power Ratio Measurement • Input Dynamic Range -55 dBm to +15 dBm • Dual channel and channel difference • +5V Operation from -40° C to +85° C output ports • Excellent Temperature Stability • Excellent Channel Matching and Channel Isolation • Integrated Temperature Sensor • RF Signal Wave Shape & Crest Factor • Power-Down Mode 11 Independent • 32 Lead 5x5mm SMT Package: 25mm² Typical Applications T • Log -> Root - Mean - Square (RMS) • Received Signal Strength Indication (RSSI) M Conversion • Transmitter Signal Strength Indication (TSSI) S • Transmitter Power Control • Dual Channel wireless infrastructure radio - • Receiver Automatic Gain Control S • Antenna VSWR Monitor R O Functional Diagram T C E T RMS & Envelope Response to WCDMA 4 E Carrier with -20dBm RF Input @ 0.9 GHz D 2.17 80 R ETOUT E 1.86 RMSOUT 60 W 1.55 40 O V)1.24 20 R P ET, RMS (00..6923 -020F Input (m V V ) 0.31 -40 0 -60 RF Input -0.31 -80 0 200 400 600 800 1000 Time (ns) InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 11 - 1 rliicgehntss eo fi sth girrda nptaerdti ebsy t himatp mlicaaPyt iorhenso uonlrt ofertoh:m e9r wit7sis 8ues -eu2.n dS5ep0re ca-inf3iyc 3aptia4otne3sn ts ou rb jpeFacttae tnoxt c:r hig9ahn7tgs 8eo wf- 2Aithn5oau0lot g-n 3oDti3ecve7i.c 3eNso . POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz General Description The HMC1030LP5E is a dual-channel RMS power detector designed for high accuracy RF power signal measure- ment and control applications over the 0.1 to 3.9 GHz frequency range. The device can be used with input signals hav- ing RMS values from -60 dBm to +10 dBm referenced to 50 Ohm and large crest factors with no accuracy degradation. Each RMS detection channel is fully specified for operation up to 3.9 GHz, over a wide dynamic range of 70 dB. The HMC1030LP5E operates from a single +5V supply and provides two linear-in-dB detection outputs at the RMSA and RMSB pins with scaled slopes of 37 mV/dB. The RMSA and RMSB channel outputs provide RMS detection perfor- mance in terms of dynamic range, logarithmic linearity and temperature stability similar to Hittite’s HMC1021LP4E RMS Detector. The RMSA and RMSB outputs provide a read of average input signal power, or true-RMS power. Frequency detection up to 3.9 GHz is possible, with excellent channel matching of less than 1 dB, over a wide range of input frequencies and with low temperature drift. The HMC1030LP5E also provides “channel difference” output ports via pins OUTP and OUTN, permitting measure- 11 ments of the input signal power ratio between the two power detection channels. These outputs may be used in single-ended or differential configurations. An input voltage applied to the VLVL input pin is used to set the common mode voltage reference level for OUTP and OUTN. On the Hittite evaluation board, the VLVL pin is shorted to VREF2 output to provide a nominal bias voltage of 2.5V; but any external bias voltage may be used to set VLVL. T The HMC1030LP5E features ETA and ETB pins which provide an accurate voltage output which is linearly propor- M tional to the envelope amplitude of the RF input signal for modulation bandwidths up to 150 MHz. The high bandwidth S envelope detection of the HMC1030LP5E makes it ideal for detecting broadband and high crest factor RF signals commonly used in CDMA2000, WCDMA, and LTE systems. Additionally, the instantaneous envelope output can be - used to create fast, excessive RF power protection, PA linearization, and efficiency enhancing envelope tracking PA S implementations. R The HMC1030LP5E includes a buffered PTAT temperature sensor output with a temperature scaling factor of 2 mV/°C O yielding a typical output voltage of 567 mV at 0°C. T C The HMC1030LP5E operates over the -40 to +85°C temperature range, and is available in a compact, 32-lead 5x5 mm leadless QFN package. E T E Electrical Specifications I, TA = +25°C, VCCA = VCCB = VCCBS = 5V, Sci3 = Sci1 = 0V, D Sci2= 5V, Unless Otherwise Noted R Parameter Typ. Typ. Typ. Typ. Typ. Typ. Typ. Units E Dynamic Range (± 1 dB measurement error) [1] W Input Signal Frequency 100 900 1900 2200 2700 3500 3900 MHz O RMSA Output 73 73 71 69 57 48 42 dB P RMSB Output 74 74 72 70 63 50 44 dB ETA Output 19 20 20 19 19 19 dB ETB Output 19 20 19 19 19 19 dB Channel Isolations Input Signal Frequency 100 900 1900 2200 2700 3500 3900 MHz Input A to RMS Isolation B > 55 > 55 52 49 49 dB (PIN = -45 dBm, RMS = RMSB ±1 dB) B B INB Input B to RMS Isolation A > 55 > 55 50 46 45 dB (PIN = -45 dBm, RMS = RMSA ±1 dB) A A INA Input A to RMS Isolation B 44 39 dB (PIN = -40 dBm, RMS = RMSB ±1 dB) B B INB Input B to RMS Isolation A 47 41 dB (PIN = -40 dBm, RMS =RMSA ±1 dB) A A INA Deviation vs Temperature: (Over full temperature range -40°C to 85°C). 1 dB Deviation is measured from reference, which is the same WCDMA input at 25 °C Channel Mismatch <1 dB [1] With WCDMA 4 Carrier (TM1-64 DPCH) InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 rights of third parties that maPy rhesounlt fero:m 9 it7s 8us-e2. S5p0ec-if3ic3ati4on3s s u b jeFcta tox c: h9an7g8e w-2ith5ou0t -n3oti3ce7. 3No POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com 11 - 2 license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz Electrical Specifications II, TA = +25 °C, VCCA = VCCB = VCCBS = 5V, Sci3= Sci1 = 0V, Sci2 = 5V, Unless Otherwise Noted Parameter Typ. Typ. Typ. Typ. Typ. Typ. Typ. Units Input Signal Frequency 100 900 1900 2200 2700 3500 3900 MHz Modulation Deviation (Output deviation from reference, which is measured with CW input at equivalent input signal power) WCDMA 4 Carrier (TM1-64 DPCH) at +25 °C 0.1 0.1 0.1 0.1 0.1 0.1 0.1 dB WCDMA 4 Carrier (TM1-64 DPCH) at +85 °C 0.2 0.2 0.2 0.2 0.2 0.2 0.2 dB WCDMA 4 Carrier (TM1-64 DPCH) at -40 °C 0.2 0.2 0.2 0.2 0.2 0.2 0.2 dB RMSA Logarithmic Slope and Intercept [1] 11 Logarithmic Slope 35.5 38.5 37.3 38.2 40.3 45.8 49.9 mV/dB Logarithmic Intercept -66.4 -65.8 -63.4 -62 -58.9 -53 -49.5 dBm Max. Input Power at ±1 dB Error 10 10 10 10 1 -3 -5 dBm Min. Input Power at ±1 dB Error -62 -62 -60 -58 -56 -51 -47 dBm T RMSB Logarithmic Slope and Intercept [1] M Logarithmic Slope 34.7 34.9 36.2 37 38.8 43.6 47.2 mV/dB S Logarithmic Intercept -67.5 -67 -65 -63.5 -60.7 -55.2 -51.7 dBm Max. Input Power at ±1 dB Error 10 10 10 10 1 -3 -5 dBm - Min. Input Power at ±1 dB Error -64 -64 -62 -61 -58 -53 -49 dBm S ETA Linear Slope and Intercept R Linear Slope 14.3 12.3 11.8 10.5 9.1 8.4 V/V O Linear Intercept -65.5 -75.8 -79 -88.2 -102.6 -111.32 mV T Max. Input Power at ±1 dB Error -12 -10 -9 -9 -8 -8 dBm C Min. Input Power at ±1 dB Error -31 -30 -29 -28 -27 -27 dBm E ETB Linear Slope and Intercept T E Linear Slope 14.5 12.6 12.2 11.1 9.7 8.9 V/V D Linear Intercept -64.1 -73.7 -76.1 -82.9 -95.1 -103.7 mV Max. Input Power at ±1 dB Error -12 -10 -10 -9 -8 -8 dBm R Min. Input Power at ±1 dB Error -31 -30 -29 -28 -27 -27 dBm E W O P [1] With WCDMA 4 Carrier (TM1-64 DPCH) InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 11 - 3 rliicgehntss eo fi sth girrda nptaerdti ebsy t himatp mlicaaPyt iorhenso uonlrt ofertoh:m e9r wit7sis 8ues -eu2.n dS5ep0re ca-inf3iyc 3aptia4otne3sn ts ou rb jpeFacttae tnoxt c:r hig9ahn7tgs 8eo wf- 2Aithn5oau0lot g-n 3oDti3ecve7i.c 3eNso . POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz RMSA vs. Pin with Different RMSB vs. Pin with Different Modulations @ 1900 MHz[1] Modulations @ 1900 MHz[1] 3 3 2.5 Ideal 2.5 Ideal CW CW WCDMA4 Carrier WCDMA 4 Carrier 2 WCDMA1 Carrier 2 WCDMA 1 Carrier CDMA2000 CDMA2000 V) LTEDW V) LTEDW A (1.5 B (1.5 S S M M R R 1 1 0.5 0.5 11 0 0 -70 -60 -50 -40 -30 -20 -10 0 10 -70 -60 -50 -40 -30 -20 -10 0 10 INPUT POWER (dBm) INPUT POWER (dBm) T M RMSA Error vs. Pin with Different RMSB Error vs. Pin with Different S Modulations @ 1900 MHz[1] Modulations @ 1900 MHz[1] - 4 4 S 3 CW 3 CW WCDMA 4 Carrier WCDMA 4 Carrier R 2 WCDCMDAM2A0 010 Carrier 2 WCDCMDAM2A0 010 Carrier O B) 1 LTEDW B) 1 LTEDW T d d R ( 0 R ( 0 C O O R R E ER -1 ER -1 T -2 -2 E -3 -3 D -4 -4 R -70 -60 -50 -40 -30 -20 -10 0 10 -70 -60 -50 -40 -30 -20 -10 0 10 E INPUT POWER (dBm) INPUT POWER (dBm) W Electrical Specifications III, O TA = +25 °C, VCCA = VCCB = VCCBS = 5V, Sci3 = Sci1 = 0V, Sci2 = 5V, Unless Otherwise Noted P Parameter Conditions Min. Typ. Max. Units Single-Ended Input Configuration Input Network Return Loss up to 4 GHz > 15 dB Input Resistance between INPA and INNA Between pins 2 and 3 110 Ohm Input Resistance between INPB and INNB Between pins 6 and 7 110 Ohm VDIFFINA = VINPA - VINNA and Input Voltage Range 2.25 V VDIFFINB = VINPB-VINNB RMS [A,B] Output Output Voltage Range 0.1 to 3 V RMS-VSET disconnected for control 0.4 to Open-loop Output Voltage Range V applications Vcc-1 Measured with 0.9GHz input RF signal at Source/Sink Current Compliance 8/1.98 mA -25 dBm power Output Slew Rate (rise/fall) Sci3=Sci2=Sci1=0V, Cofs=1nF 33 / 1.5 106 V/sec [1] SCA1=SCA3=SCB1=SCB3=0V, SCA2=SCB2=5V InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 rights of third parties that maPy rhesounlt fero:m 9 it7s 8us-e2. S5p0ec-if3ic3ati4on3s s u b jeFcta tox c: h9an7g8e w-2ith5ou0t -n3oti3ce7. 3No POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com 11 - 4 license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz Electrical Specifications III (continued), TA = +25 °C, VCCA = VCCB = VCCBS = 5V, Sci3 = Sci1 = 0V, Sci2 = 5V, Unless Otherwise Noted Parameter Conditions Min. Typ. Max. Units ET [A, B] Outputs Modulation Bandwidth 100 MHz Output Voltage Range 1 to 2.1 V Measured with 0.9 GHz input RF signal Source/Sink Current Compliance 8 / 2.95 mA at -18 dBm power Output Slew Rate (rise/fall) 83.3 / 250 106 V/sec VSET [A,B] Outputs For control applications with nominal 11 Input Voltage Range [1] slope/intercept settings 0.13 to 2.7 V Input Resistance 1 kOhm OUTP and OUTN Outputs Output Voltage Range R=1k Ohm, C=4.7pF [1] 1 to 3.9 V L L T OUTP-FBKA and OUTN-FBKB 0.1 to Open-loop Output Voltage Range V M disconnected for control applications Vcc-0.9 S Measured with 0.9 GHz input RF signal Source/Sink Current Compliance 8 / 2.2 mA at -30 dBm power - VLVL, Common Mode Reference Level for OUT[P,N] S Voltage Range OUT[P,N]=FBK[A,B] 0 5 V R Input Resistance 6 kOhm O VREF2, Voltage Reference Output T Output Voltage 2.43 V C Temperature Sensitivity 0.15 mV/°C E Source/Sink Current Compliance 5.5 / 2.6 mA T TEMP, Temperature Sensor Output E Output Voltage measured at 0°C 0.6 V D Temperature Sensitivity 2.2 mV/°C R Source/Sink Current Compliance 1.7 / 0.5 mA E SCI1-3 Inputs, ENX Logic Input, Power Down Control W Input High Voltage 0.7xV V CC Input Low Voltage 0.3xV V O CC Input Capacitance 0.5 pF P Power Supply Supply Voltage 4.5 5 5.5 V 120.6 mA nominal at -40°C; Supply Current with no input power 143 mA 159.5 mA nominal at 85°C 128 mA nominal at -40°C; Supply Current with 0 dBm at one channel 151.7 mA 168.2 mA nominal at 85°C Supply Current with 0 dBm at both channels 160 mA Standby Mode Supply Current 13 mA [1] For nominal slope/intercept setting, please see application section to change this range InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 11 - 5 rliicgehntss eo fi sth girrda nptaerdti ebsy t himatp mlicaaPyt iorhenso uonlrt ofertoh:m e9r wit7sis 8ues -eu2.n dS5ep0re ca-inf3iyc 3aptia4otne3sn ts ou rb jpeFacttae tnoxt c:r hig9ahn7tgs 8eo wf- 2Aithn5oau0lot g-n 3oDti3ecve7i.c 3eNso . POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz RMSA & Error vs. Pin @ 100 MHz [1] RMSB & Error vs. Pin @ 100 MHz [1] 3.2 4 3.2 4 22..48 IRRRdMMMeaSSSlAAA ++ -284550CCC 23 22..48 EEERRRRRR ++-428055CCC 23 V) 2 1 ER V) 2 1 ER RMSA ( 11..26 -01 ROR (dB RMSB ( 11..26 -01 ROR (dB ) ) 0.8 -2 0.8 Ideal -2 ERR +25C LOGOUT +25C 0.4 EERRRR +-4805CC -3 0.4 LLOOGGOOUUTT + -8450CC -3 11 0 -4 0 -4 -70 -60 -50 -40 -30 -20 -10 0 10 -70 -60 -50 -40 -30 -20 -10 0 10 INPUT POWER (dBm) INPUT POWER (dBm) T M S RMSA & Error vs. Pin @ 900 MHz [1] RMSB & Error vs. Pin @ 900 MHz [1] - 3.2 4 3.2 4 S 2.8 ERR +25C 3 2.8 ERR +25C 3 R ERR +85C ERR +85C 2.4 ERR -40C 2 2.4 ERR - 40C 2 O V) 2 1 ER V) 2 1 ER T RMSA ( 11..26 -01 ROR (dB) RMSB ( 11..26 -01 ROR (dB) TEC 0.8 Ideal -2 0.8 Ideal -2 E LOGOUT +25C LOGOUT +25C 0.4 LOGOUT +85C -3 0.4 LOGOUT +85C -3 D LOGOUT -40C LOGOUT -40C 0 -4 0 -4 R -70 -60 -50 -40 -30 -20 -10 0 10 -70 -60 -50 -40 -30 -20 -10 0 10 E INPUT POWER (dBm) INPUT POWER (dBm) W O P RMSA & Error vs. Pin @ 1900 MHz [1] RMSB & Error vs. Pin @ 1900 MHz [1] 3.2 4 3.2 4 2.8 ERR +25C 3 2.8 ERR +25C 3 ERR +85C ERR +85C 2.4 ERR -40C 2 2.4 ERR -40C 2 V) 2 1 ER V) 2 1 ER RMSA ( 11..26 -01 ROR (dB RMSB ( 11..26 -01 ROR (dB ) ) 0.8 Ideal -2 0.8 Ideal -2 LOGOUT +25C LOGOUT +25C 0.4 LOGOUT +85C -3 0.4 LOGOUT +85C -3 LOGOUT -40C LOGOUT -40C 0 -4 0 -4 -70 -60 -50 -40 -30 -20 -10 0 10 -70 -60 -50 -40 -30 -20 -10 0 10 INPUT POWER (dBm) INPUT POWER (dBm) [1] WCDMA Input Waveform InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 rights of third parties that maPy rhesounlt fero:m 9 it7s 8us-e2. S5p0ec-if3ic3ati4on3s s u b jeFcta tox c: h9an7g8e w-2ith5ou0t -n3oti3ce7. 3No POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com 11 - 6 license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz RMSA & Error vs. Pin @ 2200 MHz [1] RMSB & Error vs. Pin @ 2200 MHz [1] 3.2 4 3.2 4 2.8 ERR +25C 3 2.8 ERR +25C 3 ERR +85C ERR +85C 2.4 ERR -40C 2 2.4 ERR -40C 2 V) 2 1 ER V) 2 1 ER RMSA ( 11..26 -01 ROR (dB RMSB ( 11..26 -01 ROR (dB ) ) 0.8 Ideal -2 0.8 Ideal -2 LOGOUT +25C LOGOUT +25C 11 0.4 LOGOUT +85C -3 0.4 LOGOUT +85C -3 LOGOUT -40C LOGOUT -40C 0 -4 0 -4 -70 -60 -50 -40 -30 -20 -10 0 10 -70 -60 -50 -40 -30 -20 -10 0 10 INPUT POWER (dBm) INPUT POWER (dBm) T M S RMSA & Error vs. Pin @ 2700 MHz [1] RMSB & Error vs. Pin @ 2700 MHz [1] - 3.2 4 3.2 4 S R 2.8 ERR +25C 3 2.8 ERR +25C 3 ERR +85C ERR +85C O 2.4 ERR -40C 2 2.4 ERR -40C 2 T V) 2 1 ER V) 2 1 ER TEC RMSA ( 11..26 -01 ROR (dB) RMSB ( 11..26 -01 ROR (dB) E 0.8 Ideal -2 0.8 Ideal -2 LOGOUT +25C LOGOUT +25C D 0.4 LOGOUT +85C -3 0.4 LOGOUT +85C -3 LOGOUT -40C LOGOUT -40C R 0 -4 0 -4 E -70 -60 -50 -40 -30 -20 -10 0 10 -70 -60 -50 -40 -30 -20 -10 0 10 INPUT POWER (dBm) INPUT POWER (dBm) W O P RMSA & Error vs. Pin @ 3500 MHz [1] RMSB & Error vs. Pin @ 3500 MHz [1] 3.2 4 3.2 4 2.8 ERR +25C 3 2.8 ERR +25C 3 ERR +85C ERR +85C ERR -40C ERR -40C 2.4 2 2.4 2 V) 2 1 ER V) 2 1 ER RMSA ( 11..26 -01 ROR (dB RMSB ( 11..26 -01 ROR (dB ) ) 0.8 -2 0.8 -2 Ideal Ideal LOGOUT +25C LOGOUT +25C 0.4 LOGOUT +85C -3 0.4 LOGOUT +85C -3 LOGOUT -40C LOGOUT -40C 0 -4 0 -4 -70 -60 -50 -40 -30 -20 -10 0 10 -70 -60 -50 -40 -30 -20 -10 0 10 INPUT POWER (dBm) INPUT POWER (dBm) [1] WCDMA Input Waveform InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 11 - 7 rliicgehntss eo fi sth girrda nptaerdti ebsy t himatp mlicaaPyt iorhenso uonlrt ofertoh:m e9r wit7sis 8ues -eu2.n dS5ep0re ca-inf3iyc 3aptia4otne3sn ts ou rb jpeFacttae tnoxt c:r hig9ahn7tgs 8eo wf- 2Aithn5oau0lot g-n 3oDti3ecve7i.c 3eNso . POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz RMSA & Error vs. Pin @ 3900 MHz [1] RMSB & Error vs. Pin @ 3900 MHz [1] 3.2 4 3.2 4 2.8 ERR +25C 3 2.8 ERR +25C 3 ERR +85C ERR +85C 2.4 ERR -40C 2 2.4 ERR -40C 2 V) 2 1 ER V) 2 1 ER RMSA ( 11..26 -01 ROR (dB RMSB ( 11..26 -01 ROR (dB ) ) 0.8 -2 0.8 -2 Ideal Ideal LOGOUT +25C LOGOUT +25C 0.4 LOGOUT +85C -3 0.4 LOGOUT +85C -3 11 LOGOUT -40C LOGOUT -40C 0 -4 0 -4 -70 -60 -50 -40 -30 -20 -10 0 10 -70 -60 -50 -40 -30 -20 -10 0 10 INPUT POWER (dBm) INPUT POWER (dBm) T M OUT [P,N] & Error vs. Pin @ 100 MHz [1] [2] OUT [P,N] & Error vs. Pin @ 900 MHz [1] [2] S - 4 4 4 4 S OUTN OUTP OUTN OUTP R 3 2 3 2 O V) E V) E T P,N] ( 2 0 RRO P,N] ( 2 0 RRO C OUT[ OUTP Err +25C R (dB) OUT[ OUTP Err +25C R (dB) TE 1 OUTP Err +85C -2 1 OUTP Err +85C -2 E OUTP Err -40C OUTP Err -40C OUTN Err +25C OUTN Err +25C D OUTN Err +85C OUTN Err +85C OUTN Err -40C OUTN Err -40C 0 -4 0 -4 R -70 -60 -50 -40 -30 -20 -10 0 10 -70 -60 -50 -40 -30 -20 -10 0 10 E INPUT POWER (dBm) INPUT POWER (dBm) W O P OUT [P,N] & Error vs. Pin @ 1900 MHz [1][2] OUT [P,N] & Error vs. Pin @ 2200 MHz [1][2] 4 4 4 4 OUTN OUTP OUTN OUTP 3 2 3 2 V) E V) E P,N] ( 2 0 RRO P,N] ( 2 0 RRO OUT[ R (dB OUT[ R (dB OUTP Err +25C ) OUTP Err +25C ) 1 OUTP Err +85C -2 1 OUTP Err +85C -2 OUTP Err -40C OUTP Err -40C OUTN Err +25C OUTN Err +25C OUTN Err +85C OUTN Err +85C OUTN Err -40C OUTN Err -40C 0 -4 0 -4 -70 -60 -50 -40 -30 -20 -10 0 10 -70 -60 -50 -40 -30 -20 -10 0 10 INPUT POWER (dBm) INPUT POWER (dBm) [1] WCDMA Input Waveform [2] INPA Power Swept, INPB Fixed Power @ -25 dBm InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 rights of third parties that maPy rhesounlt fero:m 9 it7s 8us-e2. S5p0ec-if3ic3ati4on3s s u b jeFcta tox c: h9an7g8e w-2ith5ou0t -n3oti3ce7. 3No POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com 11 - 8 license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz OUT [P,N] & Error vs. Pin @ 2700 MHz [1][2] OUT [P,N] & Error vs. Pin @ 3500 MHz[1][2] 4 4 4 4 OUTN OUTP OUTN 3 2 3 2 V) E V) E P,N] ( 2 0 RRO P,N] ( 2 0 RRO OUT[ R (dB OUT[ OUTP R (dB OUTP Err +25C ) OUTP Err +25C ) 1 OUTP Err +85C -2 1 OUTP Err +85C -2 11 OUTP Err -40C OUTP Err -40C OUTN Err +25C OUTN Err +25C OUTN Err +85C OUTN Err +85C OUTN Err -40C OUTN Err -40C 0 -4 0 -4 -70 -60 -50 -40 -30 -20 -10 0 10 -70 -60 -50 -40 -30 -20 -10 0 10 INPUT POWER (dBm) INPUT POWER (dBm) T M S OUT [P,N] & Error vs. Pin @ 3900 MHz [1][2] RMSA Intercept vs. Frequency [1] - -40 S 4 4 R -45 O OUTN -50 3 2 m) +25C T B +85C TEC OUT[P,N] (V) 2 OUTP 0 ERROR (dB TERCEPT (d---665505 -40C E OUTP Err +25C ) N 1 OUTP Err +85C -2 I-70 D OUTP Err -40C OUTN Err +25C OUTN Err +85C -75 R OUTN Err -40C 0 -4 -80 E -70 -60 -50 -40 -30 -20 -10 0 10 0 1000 2000 3000 4000 W INPUT POWER (dBm) FREQUENCY (MHz) O P RMSB Intercept vs. Frequency [1] RMSA Slope vs. Frequency [1] -40 60 -45 55 -50 Bm) ++2855CC B) 50 ++2855CC NTERCEPT (d---665505 -40C SLOPE (mV/d 4405 -40C I-70 35 -75 -80 30 0 1000 2000 3000 4000 0 1000 2000 3000 4000 FREQUENCY (MHz) FREQUENCY (MHz) [1] WCDMA Input Waveform [2] INPA Power Swept, INPB Fixed Power @ -25 dBm InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 11 - 9 rliicgehntss eo fi sth girrda nptaerdti ebsy t himatp mlicaaPyt iorhenso uonlrt ofertoh:m e9r wit7sis 8ues -eu2.n dS5ep0re ca-inf3iyc 3aptia4otne3sn ts ou rb jpeFacttae tnoxt c:r hig9ahn7tgs 8eo wf- 2Aithn5oau0lot g-n 3oDti3ecve7i.c 3eNso . POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz RMSA vs. Pin with WCDMA 4 Carrier RMSB Slope vs. Frequency [1] @ +25 °C [1] [2] 60 3 100MHz 55 2.5 900MHz 1900MHz +25C 2200MHz B) 50 +85C 2 2700MHz V/d -40C V) 33590000MMHHzz E (m 45 SA ( 1.5 P M SLO 40 R 1 35 11 0.5 30 0 1000 2000 3000 4000 0 -70 -60 -50 -40 -30 -20 -10 0 10 FREQUENCY (MHz) INPUT POWER (dBm) T M RMSB vs. Pin with WCDMA 4 Carrier RMSA Error vs. Pin with WCDMA 4 Carrier S @ +25 °C [1] [2] @ +25 °C [1] [2] - 3 4 S 100MHz 3 R 2.5 900MHz 12920000MMHHzz 2 O SB (V) 1.52 233759000000MMMHHHzzz OR (dB) 01 ECT M R R ER -1 T 1 100MHz 900MHz E -2 1900MHz 2200MHz D 0.5 2700MHz -3 3500MHz 3900MHz R 0 -4 -70 -60 -50 -40 -30 -20 -10 0 10 -70 -60 -50 -40 -30 -20 -10 0 10 E INPUT POWER (dBm) INPUT POWER (dBm) W O RMSB Error vs. Pin with WCDMA 4 RMSA Error vs. Pin with WCDMA 4 Carrier P Carrier @ +25 °C [1] [2] @ +85 °C wrt +25 °C Response [1] [2] 4 4 3 3 100MHz 900MHz 1900MHz 2 2 2200MHz 2700MHz dB) 1 dB) 1 33590000MMHHzz R ( R ( O 0 O 0 R R R R E -1 E -1 100MHz 900MHz -2 1900MHz -2 2200MHz 2700MHz -3 3500MHz -3 3900MHz -4 -4 -70 -60 -50 -40 -30 -20 -10 0 10 -70 -60 -50 -40 -30 -20 -10 0 10 INPUT POWER (dBm) INPUT POWER (dBm) [1] WCDMA Input Waveform [2] SCA1=SCA3=SCB1=SCB3=0V, SCA2=SCB2=5V InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 rights of third parties that maPy rhesounlt fero:m 9 it7s 8us-e2. S5p0ec-if3ic3ati4on3s s u b jeFcta tox c: h9an7g8e w-2ith5ou0t -n3oti3ce7. 3No POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com 11 - 10 license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz RMSB Error vs. Pin with WCDMA 4 RMSA Error vs. Pin with WCDMA 4 Carrier @ +85 °C wrt +25 °C Response [1] [2] Carrier @ -40 °C wrt +25 °C Response [1] [2] 4 4 3 100MHz 3 900MHz 1900MHz 2 2200MHz 2 2700MHz dB) 1 33590000MMHHzz dB) 1 OR ( 0 OR ( 0 R R R R E -1 E -1 100MHz 900MHz -2 -2 1900MHz 11 2200MHz 2700MHz -3 -3 3500MHz 3900MHz -4 -4 -70 -60 -50 -40 -30 -20 -10 0 10 -70 -60 -50 -40 -30 -20 -10 0 10 T INPUT POWER (dBm) INPUT POWER (dBm) M RMSB Error vs. Pin with WCDMA 4 S Carrier @ -40 °C wrt +25 °C Response [1] [2] RMSA vs. Pin with CW @ +25 °C [1] [2] - 4 3 S R 3 100MHz 2.5 900MHz O 2 12920000MMHHzz ECT ROR (dB) 01 MSA (V) 1.52 233759000000MMMHHHzzz R R T E -1 100MHz 1 E 900MHz -2 1900MHz D 2200MHz 2700MHz 0.5 -3 3500MHz R 3900MHz -4 0 E -70 -60 -50 -40 -30 -20 -10 0 10 -70 -60 -50 -40 -30 -20 -10 0 10 W INPUT POWER (dBm) INPUT POWER (dBm) O P RMSB vs. Pin with CW @ +25 °C [1] [2] RMSA Error vs. Pin with CW @ +25 °C [1] [2] 3 4 100MHz 3 2.5 900MHz 1900MHz 2200MHz 2 2 2700MHz V) 33590000MMHHzz dB) 1 SB ( 1.5 OR ( 0 M R R R 1 E -1 100MHz 900MHz -2 1900MHz 2200MHz 0.5 2700MHz -3 3500MHz 3900MHz 0 -4 -70 -60 -50 -40 -30 -20 -10 0 10 -70 -60 -50 -40 -30 -20 -10 0 10 INPUT POWER (dBm) INPUT POWER (dBm) [1] WCDMA Input Waveform [2] SCA1=SCA3=SCB1=SCB3=0V, SCA2=SCB2=5V InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 11 - 11 rliicgehntss eo fi sth girrda nptaerdti ebsy t himatp mlicaaPyt iorhenso uonlrt ofertoh:m e9r wit7sis 8ues -eu2.n dS5ep0re ca-inf3iyc 3aptia4otne3sn ts ou rb jpeFacttae tnoxt c:r hig9ahn7tgs 8eo wf- 2Aithn5oau0lot g-n 3oDti3ecve7i.c 3eNso . POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz RMSA vs. Pin w/ CW & WCDMA 4 RMSB Error vs. Pin with CW @ +25 °C [1] [2] Carrier @ 1900 MHz & +25 °C [1] [2] 4 3 3 2.5 2 2 CW dB) 1 V) WCDMA OR ( 0 SA ( 1.5 R M R R E -1 100MHz 1 900MHz -2 1900MHz 2200MHz 11 2700MHz 0.5 -3 3500MHz 3900MHz -4 0 -70 -60 -50 -40 -30 -20 -10 0 10 -70 -60 -50 -40 -30 -20 -10 0 10 INPUT POWER (dBm) INPUT POWER (dBm) T M RMSB vs. Pin w/ CW & WCDMA 4 RMSA Reading Error for WCDMA wrt CW S Carrier @ 1900 MHz & +25 °C [1] [2] Response @ +25 °C [1] [2] - 3 1 S 0.8 R 2.5 0.6 O 0.4 SB (V) 1.52 CWWCDMA OR (dB) 0.20 ECT M R R ER-0.2 T 1 100MHz -0.4 900MHz E 1900MHz -0.6 2200MHz D 0.5 2700MHz -0.8 3500MHz 3900MHz R 0 -1 E -70 -60 -50 -40 -30 -20 -10 0 10 -70 -60 -50 -40 -30 -20 -10 0 10 INPUT POWER (dBm) INPUT POWER (dBm) W O RMSB Reading Error for WCDMA wrt CW RMSA vs. Pin w/ CW & WCDMA 4 P Response @ +25 °C [1] [2] Carrier @ 1900MHz & +85 °C [1] [2] 1 3 0.8 2.5 0.6 0.4 2 CW dB) 0.2 V) WCDMA OR ( 0 SA ( 1.5 R M R-0.2 R E 100MHz 1 -0.4 900MHz 1900MHz -0.6 2200MHz 2700MHz 0.5 -0.8 3500MHz 3900MHz -1 0 -70 -60 -50 -40 -30 -20 -10 0 10 -70 -60 -50 -40 -30 -20 -10 0 10 INPUT POWER (dBm) INPUT POWER (dBm) [1] WCDMA Input Waveform [2] SCA1=SCA3=SCB1=SCB3=0V, SCA2=SCB2=5V InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 rights of third parties that maPy rhesounlt fero:m 9 it7s 8us-e2. S5p0ec-if3ic3ati4on3s s u b jeFcta tox c: h9an7g8e w-2ith5ou0t -n3oti3ce7. 3No POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com 11 - 12 license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz RMSA Reading Error for WCDMA wrt CW RMSB vs. Pin w/ CW & WCDMA 4 Response @ +85 °C [1] [2] Carrier @ 1900 MHz & +85 °C [1] [2] 3 1 0.8 2.5 0.6 0.4 2 CW B(V) WCDMA R (dB) 0.2 S 1.5 O 0 M R R R-0.2 E 1 100MHz -0.4 900MHz 1900MHz 11 -0.6 2200MHz 0.5 2700MHz -0.8 3500MHz 3900MHz 0 -1 -70 -60 -50 -40 -30 -20 -10 0 10 -70 -60 -50 -40 -30 -20 -10 0 10 T INPUT POWER (dBm) INPUT POWER (dBm) M RMSB Reading Error for WCDMA wrt CW RMSA vs. Pin w/ CW & WCDMA 4 S Response @ +85 °C [1] [2] Carrier @ 1900 MHz & -40 °C [1] [2] - 1 3 S 0.8 R 2.5 0.6 O 0.4 ECT OR (dB) 0.20 SA (V) 1.52 CWWCDMA R M T ER-0.2 R 100MHz 1 E -0.4 900MHz 1900MHz D -0.6 2200MHz 2700MHz 0.5 -0.8 3500MHz R 3900MHz E -1 0 -70 -60 -50 -40 -30 -20 -10 0 10 -70 -60 -50 -40 -30 -20 -10 0 10 W INPUT POWER (dBm) INPUT POWER (dBm) O RMSB vs. Pin w/ CW & WCDMA 4 RMSA Reading Error for WCDMA wrt CW P Carrier @ 1900 MHz & -40 °C [1] [2] Response @ -40 °C [1] [2] 3 1 0.8 2.5 0.6 0.4 2 CW V) WCDMA dB) 0.2 SB ( 1.5 OR ( 0 M R R R-0.2 E 1 100MHz -0.4 900MHz 1900MHz -0.6 2200MHz 0.5 2700MHz -0.8 3500MHz 3900MHz 0 -1 -70 -60 -50 -40 -30 -20 -10 0 10 -70 -60 -50 -40 -30 -20 -10 0 10 INPUT POWER (dBm) INPUT POWER (dBm) [1] WCDMA Input Waveform [2] SCA1=SCA3=SCB1=SCB3=0V, SCA2=SCB2=5V InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 11 - 13 rliicgehntss eo fi sth girrda nptaerdti ebsy t himatp mlicaaPyt iorhenso uonlrt ofertoh:m e9r wit7sis 8ues -eu2.n dS5ep0re ca-inf3iyc 3aptia4otne3sn ts ou rb jpeFacttae tnoxt c:r hig9ahn7tgs 8eo wf- 2Aithn5oau0lot g-n 3oDti3ecve7i.c 3eNso . POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz RMSA-RMSB, Channel Matching vs. Pin RMSB Reading Error for WCDMA wrt CW over Temperature @ 100 MHz [2] [3] Response @ -40 °C [1] [2] 1 60 0.8 40 +25C 0.6 +85C -40C 0.4 V) dB) 0.2 B (m 20 OR ( 0 RMS 0 RR-0.2 A- E S 100MHz M -20 -0.4 900MHz R 1900MHz -0.6 2200MHz 11 2700MHz -40 -0.8 3500MHz 3900MHz -1 -60 -70 -60 -50 -40 -30 -20 -10 0 10 -50 -40 -30 -20 -10 0 10 INPUT POWER (dBm) INPUT POWER (dBm) T M RMSA-RMSB, Channel Matching vs. Pin RMSA-RMSB, Channel Matching vs. Pin S over Temperature @ 900 MHz [2] [3] over Temperature @ 1900 MHz [2] [3] - 60 60 S R 40 +25C 40 +25C +85C +85C -40C -40C O V) V) m 20 m 20 T B ( B ( C S S RM 0 RM 0 E A- A- S S T M -20 M -20 R R E D -40 -40 R -60 -60 E -50 -40 -30 -20 -10 0 10 -50 -40 -30 -20 -10 0 10 INPUT POWER (dBm) INPUT POWER (dBm) W O RMSA-RMSB, Channel Matching vs. Pin RMSA-RMSB, Channel Matching vs. Pin P over Temperature @ 2200 MHz [2] [3] over Temperature @ 2700 MHz [2] [3] 60 60 40 +25C 40 +25C +85C +85C -40C -40C V) V) m 20 m 20 B ( B ( S S M 0 M 0 R R A- A- S S M -20 M -20 R R -40 -40 -60 -60 -50 -40 -30 -20 -10 0 10 -50 -40 -30 -20 -10 0 10 INPUT POWER (dBm) INPUT POWER (dBm) [1] WCDMA Input Waveform [2] SCA1=SCA3=SCB1=SCB3=0V, SCA2=SCB2=5V [3] CW Input Waveform, RMSA Referenced InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 rights of third parties that maPy rhesounlt fero:m 9 it7s 8us-e2. S5p0ec-if3ic3ati4on3s s u b jeFcta tox c: h9an7g8e w-2ith5ou0t -n3oti3ce7. 3No POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com 11 - 14 license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz RMSA-RMSB, Channel Matching vs. Pin RMSA-RMSB, Channel Matching vs. Pin over Temperature @ 3500 MHz [1] [2] over Temperature @ 3900 MHz [1] [2] 120 120 80 +25C 80 +25C +85C +85C -40C -40C V) V) m 40 m 40 B ( B ( S S M 0 M 0 R R A- A- S S M -40 M -40 R R 11 -80 -80 -120 -120 -50 -40 -30 -20 -10 0 10 -50 -40 -30 -20 -10 0 10 INPUT POWER (dBm) INPUT POWER (dBm) T Interference to an Input Signal (INB Interference to an Input Signal (INA M Power Fixed) with Interfering Signal on Power Fixed) with Interfering Signal on S the other Channel (INA Power Swept) [1] the other Channel (INB Power Swept) [1] - 6 6 S 0.1 GHz 0.1 GHz R 5 0.9 GHz 5 0.9 GHz 1.9 GHz 1.9 GHz O 2.2 GHz 2.2 GHz 4 2.7 GHz 4 2.7 GHz CT R (dB) 3 33..59 GGHHzz R (dB) 3 33..59 GGHHzz E RRO 2 C-4h5adnBnme l fBor ffix<e3d G aHtz RRO 2 C-4h5adnBnme l fAor ffix<e3d G aHtz T E -40dBm for f>3 GHz E -40dBm for f>3 GHz E 1 1 D 0 0 R -1 -1 E -30 -25 -20 -15 -10 -5 0 5 10 -30 -25 -20 -15 -10 -5 0 5 10 W INPUT POWER (dBm) INPUT POWER (dBm) O RMS [A, B] Output Response RMS [A, B] Output Response P with SCI = 000 @ 1900 MHz with SCI = 111 @ 1900 MHz 3 25 3 25 MSOUT -20 dBm MSOUT -20 dBm 2.5 0 dBm 20 2.5 0 dBm 20 R R F F V) 2 15 ENA V) 2 15 ENA T ( BL T ( BL SOU1.5 RF ENABLE 10 E VO SOU1.5 RF ENABLE 10 E VO M L M L R 1 5 TA R 1 5 TA G G RF RF RF E RF RF RF E 0.5 OFF ON OFF 0 (V 0.5 OFF ON OFF 0 (V ) ) 0 -5 0 -5 0 1 2 3 4 5 6 7 8 9 10 0 5 10 15 20 25 30 35 TIME (us) TIME (ms) [1] CW Input Waveform [2] RMSA referenced InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 11 - 15 rliicgehntss eo fi sth girrda nptaerdti ebsy t himatp mlicaaPyt iorhenso uonlrt ofertoh:m e9r wit7sis 8ues -eu2.n dS5ep0re ca-inf3iyc 3aptia4otne3sn ts ou rb jpeFacttae tnoxt c:r hig9ahn7tgs 8eo wf- 2Aithn5oau0lot g-n 3oDti3ecve7i.c 3eNso . POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz Typical Supply Current vs. Pin, Vcc=5V [1] Input Return Loss vs. Frequency 180 0 170 -5 A) NT (m115600 S (dB) --1150 E S R O PLY CUR113400 ETURN L --2250 P R U120 -30 S +25C 11 110 +85C -35 -40C 100 -40 -70 -60 -50 -40 -30 -20 -10 0 10 0 1 2 3 4 5 6 INPUT POWER (dBm) FREQUENCY (GHz) T M S Output Ripple & Rise/Fall Time - S vs. Integration R Setting[Sci4,Sci3,Sci2,Sci1] in Decimal O 1800 100000 T Ripple with WCDMA1 C Ripple Peak-Peak (mV)11692500000000 RRRiiippppppllleee wwwiiittthhh W88 TTCooDnnMee A((114k0HkHz zs espeepreartaiotino)n) 1111000000000Rise Time & Fall Tim0 R DETE Output 300 1 e (us) WE 0 0.1 O 0 1 2 3 4 5 6 7 P Integration Setting (in Decimal) [1] CW Input Waveform InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 rights of third parties that maPy rhesounlt fero:m 9 it7s 8us-e2. S5p0ec-if3ic3ati4on3s s u b jeFcta tox c: h9an7g8e w-2ith5ou0t -n3oti3ce7. 3No POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com 11 - 16 license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz ETA vs. Pin with CW @ 900 MHz ETB vs. Pin with CW @ 900 MHz 2.5 2.5 2 2 V) V) A ( 1.5 B ( 1.5 T T E E +25C +25C 1 +85C 1 +85C -40C -40C 11 0.5 0.5 0 0.05 0.1 0.15 0.2 0 0.05 0.1 0.15 0.2 INPUT VOLTAGE (Vp-p) INPUT VOLTAGE (Vp-p) T M S ETA & ETA Error vs. Pin with CW @ ETB & ETB Error vs. Pin with CW @ 900 MHz 900 MHz - 10 4 10 4 S R +25C +25C +85C +85C O 1 -40C 2 1 -40C 2 V) V) TECT ormalized ETA ( 0.1 0 ERROR (dB) ormalized ETB ( 0.1 0 ERROR (dB) E N0.01 -2 N0.01 -2 D Error +25C Error +25C Error +85C Error +85C Error -40C Error -40C R 0.001 -4 0.001 -4 E -40 -35 -30 -25 -20 -15 -10 -5 -40 -35 -30 -25 -20 -15 -10 -5 W INPUT POWER (dBm) INPUT POWER (dBm) O P ETA vs. Pin with CW @ 1900 MHz ETB vs. Pin with CW @ 1900 MHz 2.5 2.5 2 2 ETA (V) 1.5 ETB (V) 1.5 1 ++2855CC 1 ++2855CC -40C -40C 0.5 0.5 0 0.05 0.1 0.15 0.2 0 0.05 0.1 0.15 0.2 INPUT VOLTAGE (Vp-p) INPUT VOLTAGE (Vp-p) InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 11 - 17 rliicgehntss eo fi sth girrda nptaerdti ebsy t himatp mlicaaPyt iorhenso uonlrt ofertoh:m e9r wit7sis 8ues -eu2.n dS5ep0re ca-inf3iyc 3aptia4otne3sn ts ou rb jpeFacttae tnoxt c:r hig9ahn7tgs 8eo wf- 2Aithn5oau0lot g-n 3oDti3ecve7i.c 3eNso . POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz ETA & ETA Error vs. Pin with CW @ ETB & ETB Error vs. Pin with CW @ 1900 MHz 1900 MHz 10 4 10 4 +25C +25C +85C +85C 1 -40C 2 1 -40C 2 V) V) ETA ( ER ETB ( ER zed 0.1 0 ROR zed 0.1 0 ROR mali (dB mali (dB or ) or ) N0.01 -2 N0.01 -2 Error +25C Error +25C 11 Error +85C Error +85C Error -40C Error -40C 0.001 -4 0.001 -4 -40 -35 -30 -25 -20 -15 -10 -5 -40 -35 -30 -25 -20 -15 -10 -5 INPUT POWER (dBm) INPUT POWER (dBm) T M S ETA vs. Pin with CW @ 3500 MHz ETB vs. Pin with CW @ 3500 MHz - 2.5 2.5 S R 2 2 O T V) V) C TA ( 1.5 TB ( 1.5 E E E T E 1 ++2855CC 1 ++2855CC D -40C -40C R 0.5 0.5 0 0.05 0.1 0.15 0.2 0 0.05 0.1 0.15 0.2 E INPUT VOLTAGE (Vp-p) INPUT VOLTAGE (Vp-p) W O ETA & ETA Error vs. Pin with CW @ ETB & ETB Error vs. Pin with CW @ P 3500 MHz 3500 MHz 10 4 10 4 +25C +25C +85C +85C 1 -40C 2 1 -40C 2 V) V) Normalized ETA (0.00.11 -02 ERROR (dB) Normalized ETB (0.00.11 -02 ERROR (dB) Error +25C Error +25C Error +85C Error +85C Error -40C Error -40C 0.001 -4 0.001 -4 -40 -35 -30 -25 -20 -15 -10 -5 -40 -35 -30 -25 -20 -15 -10 -5 INPUT POWER (dBm) INPUT POWER (dBm) InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 rights of third parties that maPy rhesounlt fero:m 9 it7s 8us-e2. S5p0ec-if3ic3ati4on3s s u b jeFcta tox c: h9an7g8e w-2ith5ou0t -n3oti3ce7. 3No POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com 11 - 18 license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz ETA Intercept vs. Frequency with CW ETB Intercept vs. Frequency with CW -50 -50 -60 -60 V) -70 V) -70 m m T ( -80 T ( -80 P P E E C C R -90 R -90 E E T T N N I-100 I-100 +25C +25C +85C +85C 11 -110 -40C -110 -40C -120 -120 0 1000 2000 3000 4000 0 1000 2000 3000 4000 FREQUENCY (MHz) FREQUENCY (MHz) T M S ETA Slope vs. Frequency with CW ETB Slope vs. Frequency with CW - 18 18 S R 16 +25C 16 +25C +85C +85C O -40C -40C 14 14 T V) V) V/ V/ C E ( 12 E ( 12 P P E O O L L T S 10 S 10 E D 8 8 R 6 6 0 1000 2000 3000 4000 0 1000 2000 3000 4000 E FREQUENCY (MHz) FREQUENCY (MHz) W O P ETA Output Response @ 1900 MHz ETB Output Response @ 1900 MHz 3 25 3 25 -10 dBm -10 dBm 2.5 -20 dBm 20 2.5 -20 dBm 20 ETA R ETB R 2 15 F EN 2 15 F EN A A ETA (V)1.51 RF ENABLE 510 BLE VOLTA ETB (V)1.51 RF ENABLE 510 BLE VOLTA G G 0.5 ORFFF ORNF ORFFF 0 E (V) 0.5 ORFFF ORNF ORFFF 0 E (V) 0 -5 0 -5 0 20 40 60 80 100 120 140 0 20 40 60 80 100 120 140 TIME (ns) TIME (ns) InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 11 - 19 rliicgehntss eo fi sth girrda nptaerdti ebsy t himatp mlicaaPyt iorhenso uonlrt ofertoh:m e9r wit7sis 8ues -eu2.n dS5ep0re ca-inf3iyc 3aptia4otne3sn ts ou rb jpeFacttae tnoxt c:r hig9ahn7tgs 8eo wf- 2Aithn5oau0lot g-n 3oDti3ecve7i.c 3eNso . POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz Absolute Maximum Ratings Supply Voltage 5.6V Single-Ended RF Input Power 10 dBm Input Voltage VCC + 0.6V Channel / Junction Temperature 125°C Continuous Pdiss (T = 85°C) 2.21 Watts (Derate 55.29 mW/°C above 85°C) Thermal Resistance (R ) th 18.09 °C/W (junction to ground paddle) Storage Temperature -65 to +150 °C 11 Operating Temperature -40 to +85 °C ESD Sensitivity (HBM) Class 1B ELECTROSTATIC SENSITIVE DEVICE T M OBSERVE HANDLING PRECAUTIONS S Outline Drawing - S R O T C E T E D R E W O P Package Information Part Number Package Body Material Lead Finish MSL Rating Package Marking [2] HMC1030LP5E RoHS-compliant Low Stress Injection Molded Plastic 100% matte Sn MSL1 [1] H1030 XXXX [1] Max peak reflow temperature of 260 °C [2] 4-Digit lot number XXXX InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 rights of third parties that maPy rhesounlt fero:m 9 it7s 8us-e2. S5p0ec-if3ic3ati4on3s s u b jeFcta tox c: h9an7g8e w-2ith5ou0t -n3oti3ce7. 3No POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com 11 - 20 license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz Pin Descriptions Pin Number Function Description Interface Schematic Digital input pins that control the internal integration time constant for mean square SCA1, SCB1, calculation. SCA(B)3 is the most significant bit. 1, 8, 9, 10, 31,32 SCB2, SCB3, Set V>0.2xVcc to disable. Shortest integration SCA3, SCA2 time is for SCA(B)=000, longest integration time is for SCA(B)=111. Each step changes the integration time by 1 octave. 11 T 2, 3 INNA, INPA M S - RF Input Pins. S R O T C E T 6, 7 INPB, INNB E D R The ENX input is the active low enable pin of the E whole device. The ENOUT input is the active high W 4, 25 ENX, ENOUT enable pin of the integrated OpAmps driving OUTA & OUTB, ETA & ETB. For normal operation, ENX O should be connected to GND and ENOUT should be connected to Vcc. P VCCBS, Bias Supply. Connect supply voltage to these pins 5, 11, 30 VCCB, with appropriate filtering. VCCA InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 11 - 21 rliicgehntss eo fi sth girrda nptaerdti ebsy t himatp mlicaaPyt iorhenso uonlrt ofertoh:m e9r wit7sis 8ues -eu2.n dS5ep0re ca-inf3iyc 3aptia4otne3sn ts ou rb jpeFacttae tnoxt c:r hig9ahn7tgs 8eo wf- 2Aithn5oau0lot g-n 3oDti3ecve7i.c 3eNso . POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz Pin Descriptions (Continued) Pin Number Function Description Interface Schematic COPB, Input high pass filter capacitor. Connect a CONB, capacitor between COPA(COPB) and CONA 12, 13, 28, 29 CONA, (CONB) to determine 3 dB point of input signal COPA high-pass filter. 11 T M Linear output that provides an indication of 14, 27 ETB, ETA envelope of the input signal. S - S R O T C E 15 VREF2 2.5V Reference voltage output. T E D R E Reference level input for OUTP and OUTN. 16 VLVL W Connect to VREF for normal operation. O VSETB, 17, 24 VSET inputs. Set point inputs for controller mode. VSETA P RMSB, Logarithmic outputs that convert the input power 18, 23 RMSA to a DC level for channel A and channel B. InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 rights of third parties that maPy rhesounlt fero:m 9 it7s 8us-e2. S5p0ec-if3ic3ati4on3s s u b jeFcta tox c: h9an7g8e w-2ith5ou0t -n3oti3ce7. 3No POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com 11 - 22 license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz Pin Descriptions (Continued) Pin Number Function Description Interface Schematic Feedback through 3.5k Ohm to the negative 19 FBKB terminal of the integrated Op Amp driving OUTN Output providing the difference of RMS outputs using an Op Amp. For normal operation, 20 OUTN connected to FBKB to provide the function: OUTN = RMSB - RMSA + VLVL Output providing the difference of RMS outputs using an Op Amp. For normal operation, 21 OUTP connected to FBKA to provide the function: 11 OUTP = RMSA - RMSB + VLVL T M Feedback through 3.5K Ohms to the negative 22 FBKA terminal of the integrated Op Amp driving OUTP S - S R O T C Temperature sensor output. See Application Note E 26 TEMP section. T E D R Package bottom has an exposed metal paddle GND E that must be connected to RF/DC ground. W O P InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 11 - 23 rliicgehntss eo fi sth girrda nptaerdti ebsy t himatp mlicaaPyt iorhenso uonlrt ofertoh:m e9r wit7sis 8ues -eu2.n dS5ep0re ca-inf3iyc 3aptia4otne3sn ts ou rb jpeFacttae tnoxt c:r hig9ahn7tgs 8eo wf- 2Aithn5oau0lot g-n 3oDti3ecve7i.c 3eNso . POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz Evaluation PCB - Wideband Single-Ended 11 T M S - S R O T C E T E D List of Materials for Evaluation PCB EVAL01-HMC1030LP5E[1] R Item Description E J1, J4, J8, J12, W SMA Connector J13, J14, J15, J18 O J19, TP2, TP3, TP5, TP6, TP7, TP9, TP10, TP11, TP16, DC Pin P TP17 C1, C2, C5, C6, C9, C21 1 nF Capacitor, 0402 Pkg. The circuit board used in the final application should C3,C7, C11, C22 100 pF Capacitor, 0402 Pkg. use RF circuit design techniques. Signal lines should C4,C8,C23 100 nF Capacitor, 0402 Pkg. have 50 Ohm impedance while the package ground R2, R8 49.9 Ohm Resistor, 0402 Pkg. leads and exposed paddle should be connected R18, R30 560 Ohm Resistor, 0402 Pkg. directly to the ground plane similar to that shown. A R22, R23, R27, R28, R31 1K Ohm Resistor, 0402 Pkg. sufficient number of via holes should be used to con- R6, R12-14,R37-39 10K Ohm Resistor, 0402 Pkg. nect the top and bottom ground planes. The evalua- R4, R10,R16, R20,R25-26, tion circuit board shown is available from Hittite upon 0 Ohm Resistor, 0402 Pkg. R33 request. HMC1030LP5E Single-Ended U1 Dual RMS Power Detector PCB [2] 600-00049-00-1 Evaluation PCB [1] Reference this number when ordering complete evaluation PCB [2] Circuit Board Material: Rogers 4350 or Arlon 25FR InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 rights of third parties that maPy rhesounlt fero:m 9 it7s 8us-e2. S5p0ec-if3ic3ati4on3s s u b jeFcta tox c: h9an7g8e w-2ith5ou0t -n3oti3ce7. 3No POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com 11 - 24 license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz Application Circuit - Wideband Single-Ended 11 T M S - S R O T C E T E D R E W O P InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 11 - 25 rliicgehntss eo fi sth girrda nptaerdti ebsy t himatp mlicaaPyt iorhenso uonlrt ofertoh:m e9r wit7sis 8ues -eu2.n dS5ep0re ca-inf3iyc 3aptia4otne3sn ts ou rb jpeFacttae tnoxt c:r hig9ahn7tgs 8eo wf- 2Aithn5oau0lot g-n 3oDti3ecve7i.c 3eNso . POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz Application Information Principle of Operation 11 T M S - The HMC1030LP5E is a dual-channel RMS and Envelope detector in a single package. The HMC1030LP5E’s RMS S detector core is designed to measure the actual RMS power of the input signal, independent of the modulated signal R waveform complexity or the modulation scheme. The RMS detector core architecture of HMC1030LP5E is composed O of a full-wave rectifier, log/antilog circuit, and an integrator as shown above. The RMS output signal is directly T proportional to the logarithm of the time-average of V 2. The bias block also contains temperature compensation C IN circuits which stabilize output accuracy over the entire operating temperature range. The DC offset cancellation circuit E actively cancels internal offsets so that even very small input signal levels can be measured accurately. T E The HMC1030LP5E supports controller mode operation. For more information regarding controller mode operation, D please contact Hittite application support. R The HMC1030LP5E achieves exceptional RF power measurement accuracy independent of the modulation of the E carrier with this system architecture. The relation between the HMC1030LP5E’s RMSOUT output and the RF input W power is given below O VRMSA vs. P with WCDMA 4 Carrier P VRMSOUT = k1 ln(ßkG2∫VIN2dt) @IN 1900 MHz 3 2.5 Ideal Measured Where ß is op-amp gain set via resistors on the V pin. 2 set V) P = V /[log-slope]+[log-intercept], dBm T ( in RMS OU1.5 S M R 1 0.5 0 -70 -60 -50 -40 -30 -20 -10 0 10 INPUT POWER (dBm) InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 rights of third parties that maPy rhesounlt fero:m 9 it7s 8us-e2. S5p0ec-if3ic3ati4on3s s u b jeFcta tox c: h9an7g8e w-2ith5ou0t -n3oti3ce7. 3No POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com 11 - 26 license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz HMC1030LP5E’s envelope detector core is capable of extracting the envelope information of the modulated RF signal with modulation bandwidths in excess of 100 MHz. The extracted envelope information is independent of the average power and the crest factor of the RF signal. The RMS detector core provides a linear-in-dB output of the average RF power, whereas the envelope detector core provides a linear representation of the instantaneous envelope waveform. The envelope detection feature may be used in ultra-fast excessive RF power protection systems, PA linearization techniques and in efficiency enhancing Envelope-Tracking PA implementations. VRMSA & VETA & WCDMA 4 Carrier with -20dBm RF Input vs. Time @ 900 MHz 2.17 80 11 1.86 ERTMOSUOTUT 60 1.55 40 V)1.24 20 R MT ET, RMS (00..6923 -020F Input (m V V S ) 0.31 -40 - 0 -60 S RF Input -0.31 -80 R 0 200 400 600 800 1000 O Time (ns) T C Measuring the ETOUT and RMS output voltage signals simultaneously provides a very informative picture of the E RF input signal such as, peak power, average power, peak-to-average power, and RF wave-shape. Simultaneous T measurement of instantaneous signal power and average power is essential for taking full advantage of a receive E signal chain’s available dynamic range, while avoiding saturation, or to maximize transmitter efficiency. D R Configuration for the Typical Application E W The HMC1030LP5E requires a single 5V supply with an adequate power supply decoupling as recommended in the O application schematic. P Inputs of the HMC1030LP5E are broadband matched to 50 Ohm single-ended with details included in the subsequent “Broadband Single-Ended Input Interface” section. The RMSA & RMSB outputs are typically connected to VSETA & VSETB inputs through a resistive network, resulting in a Pin VRMS transfer characteristic with a slope of 37 mV/dBm (at 1900 MHz) for both channels. However, the RMS outputs can be re-scaled to “magnify” a specific portion of the input sensing range, and to fully utilize the dynamic range of the RMS outputs. Refer to the section under the “Log-Slope and Intercept” section for details. The OUTP & OUTN outputs provide the input signal power ratio between the two power detection channels. The OUTP & OUTN outputs are typically connected to FBKA & FBKB. An input voltage applied to the VLVL input pin is used to set the common mode voltage reference level for the OUTP & OUTN. The VLVL pin is typically connected to VREF2 output to provide a nominal bias voltage of 2.5V. Optionally, external bias voltage may be applied to VLVL. Refer to the section under the “Channel Difference Outputs” for details. The ETA & ETB outputs provide linearly scaled replica of the instantaneous envelope of the modulated RF signal with modulation bandwidths up to 150 MHz for both channels. For optimum performance, the ET outputs of the HMC1030LP5E should be terminated to ground with a 560 Ohm load resistor. Refer to the section under the “Envelope Detector Output” for details. InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 11 - 27 rliicgehntss eo fi sth girrda nptaerdti ebsy t himatp mlicaaPyt iorhenso uonlrt ofertoh:m e9r wit7sis 8ues -eu2.n dS5ep0re ca-inf3iyc 3aptia4otne3sn ts ou rb jpeFacttae tnoxt c:r hig9ahn7tgs 8eo wf- 2Aithn5oau0lot g-n 3oDti3ecve7i.c 3eNso . POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz The SCA1-3 & SCB1-3 inputs are configured digitally to set the integration bandwidth of the RMS detectors for both channels. Refer to the section under the “RMS Output Interface and Transient Response” section for details. The COFAP-N & COFBP-N inputs determine the 3dB bandwidth of the input high pass filter for both channels. Typically 1nF external high pass filter capacitors are connected between COFAP & COFAN and between COFBP & COFBN for a banwdith of 62 kHz. The ENX input is the active low enable pin of the whole device. The ENOUT input is the active high enable pin of the integrated OpAmps driving OUTA & OUTB, ETA & ETB. For normal operation, ENX should be connected to GND and ENOUT should be connected to Vcc. Due to part-to-part variations in log-slope and log-intercept, a system-level calibration is recommended to satisfy 11 absolute accuracy requirements: refer to the “System Calibration” section for more details. Broadband Single-Ended Input Interface T M The HMC1030LP5E inputs are broadband matched to single-ended 50 Ohm with the configuration shown below. S The interface and requires only two external DC blocking capacitors and an external 50 Ohm resistor over the entire - frequency band of operation. S R The integrated broadband single-ended input interface of HMC1030LP5E eliminates the requirement for an external balun transformer or matching network and provides a compact, broadband solution. O T C E T E Note that the provided single-ended input interface D covers the whole operating spectrum of the R HMC1030LP5E and does not require matching tuning for different frequencies. The performance of E the HMC1030LP5E at different frequencies is shown W below: O P VRMSA & Error vs. Pin 3.2 4 2.8 LLOOGGOOUUTT 190000MMHHzz 3 LOGOUT 1900MHz 2.4 LOGOUT 2200MHz 2 LOGOUT 2700MHz LOGOUT 3500MHz RMSOUT (V) 11..262 LOGOUT 3900MHz ERR 100MHz -011 ERROR (dB) ERR 900MHz 0.8 ERR 1900MHz -2 ERR 2200MHz 0.4 EERRRR 23750000MMHHzz -3 ERR 3900MHz 0 -4 -70 -60 -50 -40 -30 -20 -10 0 10 INPUT POWER (dBm) InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 rights of third parties that maPy rhesounlt fero:m 9 it7s 8us-e2. S5p0ec-if3ic3ati4on3s s u b jeFcta tox c: h9an7g8e w-2ith5ou0t -n3oti3ce7. 3No POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com 11 - 28 license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz Dual RMS Detection Channels The HMC1030LP5E integrates two HMC1021LP4E RMS detection channels with shared bias and control circuitry. Proprietary design techniques enable extremely good matching between channels over a wide range of input frequencies with low temperature drift. Channel Matching Part-to-part variations for single channel RMS detectors complicate simultaneous power readings. Simultaneous signal power measurements are particularly useful for automatic gain/level control and VSWR measurements. When separate power detectors are used, the lack of an accurate match between the power detectors result in measurement errors. Calibration and compensation methods are required to counteract the differences between the separate power 11 detectors. The HMC1030LP5 dual RMS detector greatly simplifies that activity, and will reliably produce more accurate measurements. The HMC1030LP5E provides industry leading channel matching performance with the use of proprietary techniques. The channel mismatch is typically less than 100 mV over the specified temperature and frequency range with the T integrated broadband single-ended input interface. M S Channel Matching (RMSA-RMSB) - 0.2 S R 0.15 00..19 GGHHzz 1.9 GHz O 0.1 2.2 GHz 2.7 GHz V) 3.5GHz T B (0.05 3.9GHz C RMS 0 E A- T MS-0.05 R E -0.1 D -0.15 R -0.2 E -70 -60 -50 -40 -30 -20 -10 0 10 INPUT POWER (dBm) W O P Channel Isolation/Interference Off-chip interference between channels should be minimized with good RF board design practices and the quality of the soldered connections. On-chip inter-channel interference, manifests itself as the variation on one detector output due to a relatively strong signal present at the other detector input. Quantitatively, the input-output channel isolation is defined as the difference between the input power levels at both channels when the interfering (higher power level) channel causes a 1 dB measurement error in the victim channel. Worst case channel interference occurs when victim channel has an input signal level just over its detection threshold. Input-Output Channel isolation for HMC1030LP5E is: 55 dB input-output isolation at 0.9 GHz 49 dB input-output isolation up to 2.2 GHz 40 dB input-output isolation up to 3.9 GHz. InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 11 - 29 rliicgehntss eo fi sth girrda nptaerdti ebsy t himatp mlicaaPyt iorhenso uonlrt ofertoh:m e9r wit7sis 8ues -eu2.n dS5ep0re ca-inf3iyc 3aptia4otne3sn ts ou rb jpeFacttae tnoxt c:r hig9ahn7tgs 8eo wf- 2Aithn5oau0lot g-n 3oDti3ecve7i.c 3eNso . POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz If the same input signal frequency is applied to both channels, the interference will occur as a phase delay. A slight offset in signal frequency between the two channels can be seen as a ripple at the output of the channel with the lower power level applied at its input. Peaks in the output ripple correspond to the worst-case phase shift for input- output interference. The frequency of the output ripple will be equal to the “beat” frequency between the two channels. The magnitude of the output ripple will depend on the SCI (integration) settings and offset capacitors connected to COFA & COFB pins, respectively. The output ripple is reduced by increasing the value of the SCI setting, thereby decreasing the integrator bandwidth. The data was collected using a 1 kHz offset between the channels. Interference to an Input Signal (INB Interference to an Input Signal (INA 11 Power Fixed) with Interfering Signal on Power Fixed) with Interfering Signal on the other Channel (INA Power Swept) the other Channel (INB Power Swept) 5 5 T M ANNEL B (dB) 34 0012233.......1992759 GGGGGGGHHHHHHHzzzzzzz ANNEL A (dB) 34 0012233.......1992759 GGGGGGGHHHHHHHzzzzzzz S - S H H C C R N 2 N 2 R I R I O O O R R T R 1 R 1 E E C E 0 0 T -30 -25 -20 -15 -10 -5 0 5 10 -30 -25 -20 -15 -10 -5 0 5 10 E INPUT POWER (dBm) INPUT POWER (dBm) D Envelope Detector Outputs R E The HMC1030LP5E features envelope detection for both channels. The ETA & ETB outputs provide a linearly scaled W replica of the instantaneous envelope of the modulated RF signal for modulation bandwidths up to 150 MHz at for both channels. For optimum performance, the ETA & ETB pins of the HMC1030LP5E should be terminated with a O 560 Ohm load resistor to GND. Note that any capacitive loading on the ETA & ETB pins would reduce the modulation P bandwidth of the envelope detection. The envelope outputs have a conversion gain of 15V/V with an output voltage ranging from 1.0V to 2.1V. ETA vs. Input Peak Voltage @ 900 MHz 2.5 2 V) T ( U 1.5 O T E +25C 1 +85C -40C 0.5 0 0.25 0.5 0.75 1 1.25 1.5 1.75 2 INPUT PEAK VOLTAGE (Vp-p) InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 rights of third parties that maPy rhesounlt fero:m 9 it7s 8us-e2. S5p0ec-if3ic3ati4on3s s u b jeFcta tox c: h9an7g8e w-2ith5ou0t -n3oti3ce7. 3No POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com 11 - 30 license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz The waveform below shows the HMC1030LP5E’s envelope detector response to an RF input signal with a 100 MHz modulation bandwidth. ETOUT Response to an RF Input Signal with 100 MHz Modulation Bandwidth 11 T M S - S R O Channel Difference Outputs T HMC1030LP5E features OUTP and OUTN “channel difference” outputs that can be used differentially or single- C ended. The OUTP and OUTN outputs provide direct read of input signal power ratio between the two channels. The E OUTP and OUTN are connected to FBKA and FBKB pins respectively. The OUTP and OUTN are defined with the T following equations: E D OUTP = RMSA - RMSB + VLVL R OUTN = RMSB - RMSA + VLVL E W Where, the VLVL is the common mode reference level applied at the VLVL pin. The VLVL pin can be connected to VREF2 output to provide a nominal base voltage of 2.5V. Optionally; external bias voltage can be applied to VLVL. O P Channel Difference Outputs @ 1900 MHz, Channel A Power Swept, Channel B @ -25 dBm, VLVL=2.5V 4 With the channels of HMC1030LP5E having very low 3 mismatch, and located on the same die, the channel V) outputs RMSA and RMSB track very closely over T ( PU 2 temperature. The difference operation also allows the UT OUTP and OUTN to reject common-mode changes O in channels A and B. 1 OOUUTTPN 0 -70 -60 -50 -40 -30 -20 -10 0 10 INPUT POWER (dBm) InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 11 - 31 rliicgehntss eo fi sth girrda nptaerdti ebsy t himatp mlicaaPyt iorhenso uonlrt ofertoh:m e9r wit7sis 8ues -eu2.n dS5ep0re ca-inf3iyc 3aptia4otne3sn ts ou rb jpeFacttae tnoxt c:r hig9ahn7tgs 8eo wf- 2Aithn5oau0lot g-n 3oDti3ecve7i.c 3eNso . POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz RMS Output Interface and Transient Response The HMC1030LP5E features digital input pins (SCI1-SCI3) that control the internal integration time of the RMS detector. The RMS output transient response is determined by the digital integration controls, and output load conditions. The SCI3 is the most significant bit, and the longest integration time is for SCI=111. Using larger values of SCI will narrow the operating bandwidth of the integrator, resulting in a longer averaging time interval and a more filtered output signal. It will also slow the power detector’s transient response. A larger SCI value favors output accuracy over speed. For the fastest possible transient settling time,s set SCI to 000. This configuration will operate the integrator at its widest possible bandwidth, resulting in short averaging time-interval and an output signal with little filtering. For most applications an SCI setting may be selected to maintain a balance between speed and accuracy. Furthermore, error performance over modulation bandwidth is dependent on the SCI 11 setting. For example modulations with relatively low frequency components and high crest factors may require higher SCI (integration) settings. T Excessive loading at the RMS output impacts the transient response. It is recommended to keep load resistance M above 500 Ohm. S For increased load drive capability, consider a buffer amplifier on the RMS output. Using an integrating amplifier on - the RMS output allows for an alternative treatment for faster settling times. An external amplifier optimized for transient S settling can also provide additional RMS filtering when operating HMC1030LP5E with a lower SCI value. R Table 1: Transient Response vs. SCI Setting: O T RMSOUT Rise-Time 10% -> 90% (µs) [3] RMSOUT Rise Settling Time (µs) [2] RMSOUT Fall-time 100% -> 10% (µs) [4] C Pin = 0 Pin = -20 Pin = -40 Pin = 0 Pin = -20 Pin = -40 Pin = 0 Pin = -20 Pin = -40 SCI3,2,1 E dBm dBm dBm dBm dBm dBm dBm dBm dBm T 000 0.06 0.04 0.03 0.06 0.04 0.04 0.9 0.9 0.8 E 001 0.06 0.04 0.06 0.06 0.04 0.06 2.7 2.7 2.54 D 010 0.06 0.06 0.74 0.06 2.30 0.78 10.7 10.7 10 R 011 1.18 2.94 3.57 4.69 8 5 43.7 43 41.4 E 100 4.82 11.9 15 23.9 32 21.5 178 176 169 W 101 21.3 50 67.2 107 130 91.3 727 718 667 110 90.5 205 278 486 520 378 3000 2950 2730 O 111 381 851 1120 2047 2042 1515 12240 12066 11770 P Rise Time[1] vs. Rise Settling Time[2] vs. SCI Setting over Input Power SCI Setting over Input Power 10000 100000 1000 -- 42 000 dddBBBmmm E (us)10000 -- 42 000 dddBBBmmm s)100 M1000 E (u G TI TIM 10 LIN100 RISE 1 SETT 10 E S RI 0.1 1 0.01 0.1 0 1 2 3 4 5 6 7 0 1 2 3 4 5 6 7 INTEGRATION SETTING (IN DECIMAL) INTEGRATION SETTING (IN DECIMAL) [1] Measured from 10% to 90% [2] Measured from RF switching edge to 1dB (input referred) settling of RMSOUT. InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 rights of third parties that maPy rhesounlt fero:m 9 it7s 8us-e2. S5p0ec-if3ic3ati4on3s s u b jeFcta tox c: h9an7g8e w-2ith5ou0t -n3oti3ce7. 3No POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com 11 - 32 license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz Fall Time [1] vs. SCI Setting over Input Power 100000 -40 dBm 10000 -20 dBm 0 dBm s) u E (1000 M TI L L100 A F 11 10 1 0 1 2 3 4 5 6 7 INTEGRATION SETTING (IN DECIMAL) T M Residual Ripple for 0.9 GHz OFDM Residual Ripple for 0.9 GHz WiMAX S Advanced 802.16 @ SCI = 010 OFDM Advanced 802.16 @ SCI = 011 - 2 100 2 100 S 1.8 80 1.8 80 R 1.6 60 1.6 60 O R R F F ECT OUT (V)11..241 INRPFUT 02400 INPUT VO OUT (V)11..241 INRPFUT 02400 INPUT VO T RMS0.8 -20 LTAG RMS0.8 -20 LTAG DE 00..46 RMSOUT SCI = 000 --6400 E (mV) 00..46 RMSOUT SCI = 000 --6400 E (mV) 0.2 SCI = 010 -80 0.2 SCI = 011 -80 R 0 -100 0 -100 E 0 50 100 150 200 250 300 350 400 450 500 0 50 100 150 200 250 300 350 400 450 500 W TIME (us) TIME (us) O P Residual Ripple for 0.9 GHz Residual Ripple for 0.9 GHz WIBRO @ SCI = 011 WIBRO @ SCI = 101 2 100 2 100 1.8 80 1.8 80 1.6 60 1.6 60 R R F F OUT (V)11..241 INRPFUT 02400 INPUT VO OUT (V)11..241 INRPFUT 02400 INPUT VO RMS0.8 -20 LTAG RMS0.8 -20 LTAG 0.6 -40 E 0.6 -40 E 0.4 RMSOUT SCI = 000 -60 (mV) 0.4 RMSOUT -60 (mV) 0.2 SCI = 011 -80 0.2 SSCCII == 000101 -80 0 -100 0 -100 0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5 0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5 TIME (ms) TIME (ms) [1] Measured from 100% to 10% InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 11 - 33 rliicgehntss eo fi sth girrda nptaerdti ebsy t himatp mlicaaPyt iorhenso uonlrt ofertoh:m e9r wit7sis 8ues -eu2.n dS5ep0re ca-inf3iyc 3aptia4otne3sn ts ou rb jpeFacttae tnoxt c:r hig9ahn7tgs 8eo wf- 2Aithn5oau0lot g-n 3oDti3ecve7i.c 3eNso . POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz Residual Ripple for 0.9 GHz Residual Ripple for 0.9 GHz LTE Downlink @ SCI = 010 LTE Downlink @ SCI = 011 2 100 2 100 1.8 80 1.8 80 1.6 60 1.6 60 R R F F OUT (V)11..241 INRPFUT 02400 INPUT VO OUT (V)11..241 INRPFUT 02400 INPUT VO RMS0.8 -20 LTAG RMS0.8 -20 LTAG 0.6 -40 E 0.6 -40 E 0.4 RMSOUT -60 (mV) 0.4 RMSOUT -60 (mV) 11 0.2 SCI = 000 -80 0.2 SCI = 000 -80 SCI = 010 SCI = 011 0 -100 0 -100 0 0.2 0.4 0.6 0.8 1 1.2 1.4 1.6 1.8 2 0 0.2 0.4 0.6 0.8 1 1.2 1.4 1.6 1.8 2 TIME (ms) TIME (ms) T M Residual Ripple for 0.9 GHz Residual Ripple for 0.9 GHz S WCDMA-4TM @ SCI = 011 WCDMA-4TM @ SCI = 100 - 2 100 2 100 S 1.8 80 1.8 80 R 1.6 60 1.6 60 R R O F F OUT (V)11..241 INRPFUT 02400 INPUT VO OUT (V)11..241 INRPFUT 02400 INPUT VO ECT RMS0.8 -20 LTAG RMS0.8 -20 LTAG T 00..46 RMSOUT SCI = 000 --6400 E (mV) 00..46 RMSOUT SCI = 000 --6400 E (mV) DE 0.2 SCI = 011 -80 0.2 SCI = 100 -80 R 0 -100 0 -100 E 0 100 200 300 400 500 600 700 800 900 1000 0 100 200 300 400 500 600 700 800 900 1000 TIME (us) TIME (us) W O P LOG-Slope and Intercept The HMC1030LP5E provides for an adjustment of output scale with the use of integrated operational amplifiers for both channels. Log-slope and intercept can be adjusted to “magnify” a specific portion of the input sensing range, and to fully utilize the dynamic range of the RMS outputs. A log-slope of 37 mV/dB (@1900 MHz) is set by connecting RMS Output to VSET through a resistor network for B=1 (see application schematic). The log-slope is adjusted by using the appropriate resistors RFBKA, RFBKB, RSHUNTA, RSHUNTB on the RMSA/RMSB and VSETA/VSETB pins. Log-intercept is adjusted by applying DC voltage to the VBLINEA and /VBLINEB. Due to the 15k Ohm input resistance at the VSETA/VSETB pins, moderately low resistance values should be used to minimize the scaling errors. Very low resistor values will reduce the load driving capabilities of RMSA/RMSB outputs while larger values will result in scaling errors and increase of the temperature errors because of the mismatch of the on-chip and external resistor temperature coefficients. InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 rights of third parties that maPy rhesounlt fero:m 9 it7s 8us-e2. S5p0ec-if3ic3ati4on3s s u b jeFcta tox c: h9an7g8e w-2ith5ou0t -n3oti3ce7. 3No POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com 11 - 34 license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz Optimized slope = B * log-slope Optimized intercept = log-intercept – (RFBK /RSET ) * VBLINE R FBK ß =(1/2) R // R // R FBK SHUNT SET 11 T M S - When R =0 to set VRMS=VSET, then B=1/2. FBK S R If R is not populated, then B =1/2 * (R / (R // R )) and intercept is at nominal value. SET FBK FBK SHUNT O T Note: Avoid excessive loading of the RMS output; keep C < 35 pF, and R > 375 Ohm LOAD LOAD C E Example: The logarithmic slope can be simply increased by choosing appropriate R and R values while not FBK SHUNT T populating the R resistor on the evaluation board to keep the intercept at nominal value. SET E Setting RFBK =1k Ohm and R = 0.5k Ohm results in an optimized slope of: SHUNT D Optimized Slope = B * log_slope = 1.5* 37 mV / dB R Optimized Slope = 55.5 mV / dB E W O P Slope Adjustment 4.5 4 Nominal 3.5 High Slope 3 V) Slope = 55.5 mV/dB T ( 2.5 Rset = open U Rfbk = 1 Kohm O S 2 Rshunt = 0.5 Kohm M R 1.5 Slope = 37.2 mV/dB 1 Rset = open Rfbk = 1 Kohm 0.5 Rshunt = 1 Kohm 0 -70 -60 -50 -40 -30 -20 -10 0 10 INPUT POWER (dBm) InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 11 - 35 rliicgehntss eo fi sth girrda nptaerdti ebsy t himatp mlicaaPyt iorhenso uonlrt ofertoh:m e9r wit7sis 8ues -eu2.n dS5ep0re ca-inf3iyc 3aptia4otne3sn ts ou rb jpeFacttae tnoxt c:r hig9ahn7tgs 8eo wf- 2Aithn5oau0lot g-n 3oDti3ecve7i.c 3eNso . POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz Example: The logarithmic intercept can also be adjusted by choosing appropriate R , R , and R values. FBK SHUNT SET Setting R = 1k Ohm, R =0.5k Ohm, and R = 4.7k Ohm results in an optimized slope of: FBK SHUNT SET Optimized Slope = B * log_slope = 1.6 * 37 mV / dB Optimized Slope = 59.2 mV / dB Optimized Intercept = log_intercept –(R /R )*VBLINE FBK SET Optimized Intercept = log_intercept - 0.213 * VBLINE Intercept Adjustment 11 4.5 4 Rset = 4.7 Kohm Rfbk = 1 Kohm 3.5 Rshunt = 0.5 Kohm T 3 T (V) 2.5 M U O S S 2 M R - 1.5 VBLINE = -3.2 V VBLINE = -1.6 V S 1 VVBBLLIINNEE == -00 V.8 V R VBLINE = +0.8 V 0.5 VVBBLLIINNEE == ++13..62 VV O 0 T -70 -60 -50 -40 -30 -20 -10 0 10 C INPUT POWER (dBm) E T E Temperature Sensor Interface D R The HMC1030LP5E provides a buffered PTAT temperature sensor output that provides a temperature scaling factor of 2 mV/°C with a typical output voltage of 567 mV at 0°C. The output is capable of sourcing 1.5 mA. E W O P TEMP Output 0.8 0.7 TEMPOUT V) T ( U O0.6 P M E T 0.5 0.4 -40 -30 -20 -10 0 10 20 30 40 50 60 70 80 90 TEMPERATURE (Celcius) InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 rights of third parties that maPy rhesounlt fero:m 9 it7s 8us-e2. S5p0ec-if3ic3ati4on3s s u b jeFcta tox c: h9an7g8e w-2ith5ou0t -n3oti3ce7. 3No POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com 11 - 36 license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz DC Offset Compensation Loop Internal DC offsets, which are input signal dependant, require continuous cancellation. Offset cancellation is a critical function needed for maintenance of measurement accuracy and sensitivity. The DC offset cancellation loop performs this function, and its response is largely defined by the capacitances (COFS) connected between COFPA&COFNA pins and between COFPB&COFNB pins. The COFS capacitors sets the loop bandwidth of the DC offset compensations. Higher COFS values are required for measuring lower RF frequencies. The optimal loop bandwidth setting will allow internal offsets to be cancelled at a minimally acceptable speed. 1 DC Offset Cancellation Loop ≈ Bandwidth , Hz π(500)(C + 20 x 1012) 11 OFS For example: loop bandwidth for DC cancellation with COFS = 1nF, bandwidth is ~62 kHz Standby Mode T M The ENX pin can be used to force the power detector into a low-power standby mode. As ENX is deactivated, power S is restored to all of the circuits. There is no memory of previous conditions. Coming out of stand by, internal integration - and COFS capacitors will require recharging, so if large SCI values or large COFS capacitor values have been S chosen, the wake-up time will be lengthened. R O Modulation Performance – Crest factor performance T C The HMC1030LP5E is able to detect the average power of RF signals with complex modulation schemes with E exceptional accuracy. The proprietary RMS detection core is optimized to accurately detect the RMS power of the T modulated RF signals with very high crest factors. This crest factor immune detection architecture of HMC1030LP5E E results in detection accuracy of better than 0.2 dB over the entire operating frequency and temperature range, D compared with the CW response under actual WCDMA4TM test signals shown below: R E W Reading Error for WCDMA 4 Carrier wrt Reading Error for WCDMA 4 Carrier wrt O CW Response @ +25°C CW Response @ 1900 MHz P 1 1 0.8 0.8 0.6 0.6 0.4 0.4 R (dB) 0.2 R(dB) 0.2 O 0 O 0 R R R-0.2 R-0.2 E 100MHz E -0.4 900MHz -0.4 1900MHz +25C -0.6 22270000MMHHzz -0.6 +-4805CC 3500MHz -0.8 3900MHz -0.8 -1 -1 -70 -60 -50 -40 -30 -20 -10 0 10 -70 -60 -50 -40 -30 -20 -10 0 10 INPUT POWER (dBm) INPUT POWER (dBm) InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 11 - 37 rliicgehntss eo fi sth girrda nptaerdti ebsy t himatp mlicaaPyt iorhenso uonlrt ofertoh:m e9r wit7sis 8ues -eu2.n dS5ep0re ca-inf3iyc 3aptia4otne3sn ts ou rb jpeFacttae tnoxt c:r hig9ahn7tgs 8eo wf- 2Aithn5oau0lot g-n 3oDti3ecve7i.c 3eNso . POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D

HMC1030LP5E v03.1113 DUAL RMS POWER DETECTOR DC - 3.9 GHz RMSA Error vs. Crest Factor over Frequency 1 0.8 B) d 0.6 1900 MHz Error from CW (-37 dBm) R ( 2700 MHz Error from CW (-39 dBm) O 0.4 R ER 0.2 G N 0 DI A-0.2 E R A -0.4 S M-0.6 R -0.8 11 -1 3 4 5 6 7 8 9 10 11 12 13 INPUT SIGNAL CREST FACTOR (dB) System Calibration T M Due to part-to-part variations in log-slope and log-intercept, a system-level calibration is recommended to satisfy absolute accuracy requirements. When performing this calibration, choose at least two test points: near the top-end S and bottom-end of the measurement range. It is best to measure the calibration points in the regions (of frequency and - amplitude) where accuracy is most important. Derive the log-slope and log-intercept, and store them in non-volatile S memory. R For example if the following two calibration points were measured at 2.35 GHz: O With Vrms = 2.34V at Pin = -7 dBm, Now performing a power measurement: T C and Vrms=1.84V at Pin = -16 dBm Vrms measures 2.13V E Slope Calibration Constant = SCC [Measured Pin] = [Measured Vrms]*SCC + ICC T SCC = (-16+7)/(1.84-2.34) = 18 dB/V [Measured Pin] = 2.13*18.0 – 49.12 = -10.78 dBm E Intercept Calibration Constant = ICC An error of only 0.22 dB D ICC = Pin – SCC*Vrms = -7 – 18.0 * 2.34 = -49.12 dBm R E W Factory system calibration measurements should be made using an input signal representative of the application. If the power detector will operate over a wide range of frequencies, choose a central frequency for calibration. O Layout Considerations P • Mount RF input coupling capacitors close to the IN+ and IN- pins. • Solder the heat slug on the package underside to a grounded island which can draw heat away from the die with low thermal impedance. The grounded island should be at RF ground potential. • Connect power detector ground to the RF ground plane, and mount the supply decoupling capacitors close to the supply pins. Definitions: • Log-slope: slope of PIN –> VRMS transfer characteristic. In units of mV/dB • Log-intercept: x-axis intercept of PIN –> VRMS transfer characteristic. In units of dBm. • RMS Output Error: The difference between the measured PIN and actual PIN using a line of best fit. [measured_PIN] = [measured_VRMS] / [best-fit-slope] + [best-fit-intercept], dBm • Input Dynamic Range: the range of average input power for which there is a corresponding RMS output voltage with “RMS Output Error” falling within a specific error tolerance. • Crest Factor: Peak power to average power ratio for time-varying signals. InforFmaotiro np fruircniseh,e dd beyl iAvnealroyg Daenvidce st ois pbelaliecveed otor dbee arcsc:u rHateit taintde reMliaibcler. oHwowaevveer, Cnoo rpFoorr aptriiocen,, d2e0liv Aerlyp, haand R too apdla,c Ce horedlemrss: fAonrdal,o gM DAe v0ic1e8s2, 4Inc., responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106 rights of third parties that maPy rhesounlt fero:m 9 it7s 8us-e2. S5p0ec-if3ic3ati4on3s s u b jeFcta tox c: h9an7g8e w-2ith5ou0t -n3oti3ce7. 3No POhrodnee:r 7 O81n-3-2li9n-e4 7a0t0 w(cid:127) wOrwde.hr oitntliitnee. cato wmww.analog.com 11 - 38 license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks arAe tphep plriocpearttyi oof nth eSir urepsppecotivret :o wPnehrso.ne: 978-250-3A3p4p3li c aotrio na Spuppsp@orht: iPtthitoen.ec: o1-m800-ANALOG-D