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| RF COMMUNICATIONS PRODUCTS 20 19 18 17 16 15 14 13 12 11 IF AMP LIMITER MIXER RSSI QUAD OSCILLATOR + - VREG - + E B AUDIO 1 2 3 4 5 6 7 8 9 10 SA606 Low-voltage high performance mixer FM IF system Product Specification Replaces data of October 26, 1993 RF Data Handbook 1997 Nov 07 Philips Semiconductors Philips Semiconductors Product specification Low-voltage high performance mixer FM IF system SA606 DESCRIPTION The SA606 is a low-voltage high performance monolithic FM IF system incorporating a mixer/oscillator, two limiting intermediate frequency amplifiers, quadrature detector, logarithmic received signal strength indicator (RSSI), voltage regulator and audio and RSSI op amps. The SA606 is available in 20-lead SOL (surface-mounted small outline large package) and 20-lead SSOP (shrink small outline package). The SA606 was designed for portable communication applications and will function down to 2.7V. The RF section is similar to the famous SA605. The audio and RSSI outputs have amplifiers with access to the feedback path. This enables the designer to level adjust the outputs or add filtering. PIN CONFIGURATION D and DK Packages RF IN+ 1 20 MIXER OUT 19 IF AMP DECOUPLING 18 IF AMP IN 17 IF AMP DECOUPLING 16 IF AMP OUT 15 GND 14 LIMITER IN 13 LIMITER DECOUPLING 12 LIMITER DECOUPLING 11 LIMITER OUT RF IN- DECOUPLING 2 OSCOUT OSCIN 3 4 RSSI 5 VCC AUDIO FEEDBACK AUDIO 6 7 8 9 FEATURES RSSI FEEDBACK * Low power consumption: 3.5mA typical at 3V * Mixer input to >150MHz * Mixer conversion power gain of 17dB at 45MHz * XTAL oscillator effective to 150MHz (L.C. oscillator or external oscillator can be used at higher frequencies) QUADRATURE IN 10 SR00347 * ESD protection: Figure 1. Pin Configuration Human Body Model 2kV Robot Model 200V * 102dB of IF Amp/Limiter gain * 2MHz limiter small signal bandwidth * Temperature compensated logarithmic Received Signal Strength Indicator (RSSI) with a 90dB dynamic range APPLICATIONS * Low external component count; suitable for crystal/ceramic/LC filters * Excellent sensitivity: 0.31V into 50 matching network for 12dB SINAD (Signal to Noise and Distortion ratio) for 1kHz tone with RF at 45MHz and IF at 455kHz * SA606 meets cellular radio specifications * Audio output internal op amp * RSSI output internal op amp * Internal op amps with rail-to-rail outputs ORDERING INFORMATION DESCRIPTION 20-Pin Plastic Small Outline Large (SOL) package (Surface-mount) 20-Pin Plastic Shrink Small Outline Package (SSOP) (Surface-mount) * Portable cellular radio FM IF * Cordless phones * Wireless systems * RF level meter * Spectrum analyzer * Instrumentation * FSK and ASK data receivers * Log amps * Portable high performance communication receiver * Single conversion VHF receivers TEMPERATURE RANGE -40 to +85C -40 to +85C ORDER CODE SA606D SA606DK DWG # SOT163-1 SOT266-1 ABSOLUTE MAXIMUM RATINGS SYMBOL VCC TSTG TA JA Single supply voltage Storage temperature range Operating ambient temperature range Thermal impedance D package DK package PARAMETER RATING 7 -65 to +150 -40 to +85 90 117 UNITS V C C C/W 1997 Nov 07 2 853-1576 18665 Philips Semiconductors Product specification Low-voltage high performance mixer FM IF system SA606 BLOCK DIAGRAM 20 19 18 17 16 15 14 13 12 11 IF AMP MIXER RSSI LIMITER QUAD OSCILLATOR +- VREG E B -+ AUDIO 1 2 3 4 5 6 7 8 9 10 SR00348 Figure 2. Block Diagram DC ELECTRICAL CHARACTERISTICS VCC = +3V, TA = 25C; unless otherwise stated. SYMBOL VCC ICC PARAMETER Power supply voltage range DC current drain TEST CONDITIONS LIMITS MIN 2.7 3.5 TYP MAX 7.0 4.2 UNITS V mA AC ELECTRICAL CHARACTERISTICS TA = 25C; VCC = +3V, unless otherwise stated. RF frequency = 45MHz + 14.5dBV RF input step-up; IF frequency = 455kHz; R17 = 2.4k and R18 = 3.3k; RF level = -45dBm; FM modulation = 1kHz with 8kHz peak deviation. Audio output with de-emphasis filter and C-message weighted filter. Test circuit Figure 3. The parameters listed below are tested using automatic test equipment to assure consistent electrical characterristics. The limits do not represent the ultimate performance limits of the device. Use of an optimized RF layout will improve many of the listed parameters. SYMBOL PARAMETER TEST CONDITIONS LIMITS MIN TYP 150 150 6.2 f1 = 45.0; f2 = 45.06MHz Input RF level = -52dBm Matched 14.5dBV step-up 50 source RF input resistance RF input capacitance Mixer output resistance IF section IF amp gain Limiter gain Input limiting -3dB, R17a = 2.4k, R17b = 3.3k AM rejection Audio level SINAD sensitivity 50 source 50 source Test at Pin 18 80% AM 1kHz Gain of two (2k AC load) IF level -110dBm 70 44 58 -109 45 120 17 160 dB dB dBm dB mV dB (Pin 20) 1.25 Single-ended input 13.5 -9 17 +2.5 8 3.0 1.5 4.0 19.5 MAX UNITS Mixer/Osc section (ext LO = 220mVRMS) fIN fOSC Input signal frequency Crystal oscillator frequency Noise figure at 45MHz Third-order input intercept point (50 source) Conversion voltage gain MHz MHz dB dBm dB dB k pF k 1997 Nov 07 3 Philips Semiconductors Product specification Low-voltage high performance mixer FM IF system SA606 AC ELECTRICAL CHARACTERISTICS SYMBOL THD S/N PARAMETER Total harmonic distortion Signal-to-noise ratio RF RSSI output, R9 = 2k (Continued) TEST CONDITIONS LIMITS MIN -35 No modulation for noise RF level = -118dBm RF level = -68dBm RF level = -23dBm .70 1.20 TYP -50 62 0.3 1.1 1.8 90 +1.5 Pin 18 Pin 16 Pin 14 Pin 11 Pin 11 3V = VCC, RF level = -27dBm 3V = VCC, RF level = -27dBm RF level = -117dBm 1.3 1.3 1.5 0.3 1.5 0.3 130 120 2.2 12 .80 1.80 2.50 MAX UNITS dB dB V V V dB dB k k k k mVRMS mVRMS V dB RSSI range RSSI accuracy IF input impedance IF output impedance Limiter input impedance Limiter output impedance Limiter output voltage RF/IF section (int LO) Audio level System RSSI output System SINAD sensitivity CIRCUIT DESCRIPTION The SA606 is an IF signal processing system suitable for second IF systems with input frequency as high as 150MHz. The bandwidth of the IF amplifier and limiter is at least 2MHz with 90dB of gain. The gain/bandwidth distribution is optimized for 455kHz, 1.5k source applications. The overall system is well-suited to battery operation as well as high performance and high quality products of all types. The input stage is a Gilbert cell mixer with oscillator. Typical mixer characteristics include a noise figure of 6.2dB, conversion gain of 17dB, and input third-order intercept of -9dBm. The oscillator will operate in excess of 200MHz in L/C tank configurations. Hartley or Colpitts circuits can be used up to 100MHz for xtal configurations. Butler oscillators are recommended for xtal configurations up to 150MHz. The output impedance of the mixer is a 1.5k resistor permitting direct connection to a 455kHz ceramic filter. The input resistance of the limiting IF amplifiers is also 1.5k. With most 455kHz ceramic filters and many crystal filters, no impedance matching network is necessary. The IF amplifier has 43dB of gain and 5.5MHz bandwidth. The IF limiter has 60dB of gain and 4.5MHz bandwidth. To achieve optimum linearity of the log signal strength indicator, there must be a 12dB(v) insertion loss between the first and second IF stages. If the IF filter or interstage network does not cause 12dB(v) insertion loss, a fixed or variable resistor or an L pad for simultaneous loss and impedance matching can be added between the first IF output (Pin 16) and the interstage network. The overall gain will then be 90dB with 2MHz bandwidth. The signal from the second limiting amplifier goes to a Gilbert cell quadrature detector. One port of the Gilbert cell is internally driven by the IF. The other output of the IF is AC-coupled to a tuned quadrature network. This signal, which now has a 90 phase relationship to the internal signal, drives the other port of the multiplier cell. The demodulated output of the quadrature drives an internal op amp. This op amp can be configured as a unity gain buffer, or for simultaneous gain, filtering, and 2nd-order temperature compensation if needed. It can drive an AC load as low as 5k with a rail-to-rail output. A log signal strength completes the circuitry. The output range is greater than 90dB and is temperature compensated. This log signal strength indicator exceeds the criteria for AMPs or TACs cellular telephone. This signal drives an internal op amp. The op amp is capable of rail-to-rail output. It can be used for gain, filtering, or 2nd-order temperature compensation of the RSSI, if needed. NOTE: dB(v) = 20log VOUT/VIN 1997 Nov 07 4 Philips Semiconductors Product specification Low-voltage high performance mixer FM IF system SA606 -25dB, -10dB, -29dB, -10.6dB, -36dB, 1500/50 PAD 50/50 PAD 929/50 PAD 51.5 C26 R18 3.3k C20 R17 2.4k 50/50 PAD 156k/50 PAD 50.5 3880 2430 C24 SW9 96.5 71.5 C22 FLT1 C23 SW8 96.5 32.8 71.5 C19 SW6 C18 C17 51.7 32.6 1.3k C16 SW5 C15 SW7 C21 FLT2 20 19 18 17 16 15 14 13 12 11 IF AMP MIXER LIMITER RSSI QUAD OSCILLATOR +- VREG -+ AUDIO 1 2 3 4 5 6 7 8 R13 9 10 C1 SW1 SW3 SW4 C8 R9 C9 R10 R11 SW10 C27 C12 SW11 R14 C2 L1 C7 R4 51.1 C5 L2 C6 C4 EXT. LOC OSC 44.545 45.06 MHZ MINI-CIRCUIT ZSC2-1B X1 R7 30.5 R6 178 R8 39.2 RSSI VCC C10 R12 R19 DEEMPHASIS FILTER IFT1 16k SW2 R1 C3 R3 R2 "C" WEIGHTED AUDIO MEASUREMENT CIRCUIT C14 45MHZ AUDIO Automatic Test Circuit Component List C1 C2 C5 C6 C7 C8 C9 C10 C12 C14 C15 C17 C18 C21 C23 C25 C26 100pF NPO Ceramic 390pF NPO Ceramic 100nF +10% Monolithic Ceramic 22pF NPO Ceramic 1nF Ceramic 10.0pF NPO Ceramic 100nF +10% Monolithic Ceramic 10F Tantalum (minimum) * 2.2F 100nF +10% Monolithic Ceramic 10pF NPO Ceramic 100nF +10% Monolithic Ceramic 100nF +10% Monolithic Ceramic 100nF +10% Monolithic Ceramic 100nF +10% Monolithic Ceramic 100nF +10% Monolithic Ceramic 100nF +10% Monolithic Ceramic C27 Flt 1 Flt 2 IFT 1 L1 L2 X1 R9 R10 R11 R12 R13 R14 R17 R18 R19 2.2F +10% Monolithic Ceramic Ceramic Filter Murata SFG455A3 or equiv Ceramic Filter Murata SFG455A3 or equiv 455kHz (Ce = 180pF) Toko RMC-2A6597H 147-160nH Coilcraft UNI-10/142-04J08S 0.8H nominal Toko 292CNS-T1038Z 44.545MHz Crystal ICM4712701 2k +1% 1/4W Metal Film 10k +1% 10k +1% 2k +1% 20k +1% 10k +1% 2.4k +5% 1/4W Carbon Composition 3.3k 16k SR00349 *NOTE: This value can be reduced when a battery is the power source. Figure 3. SA606 45MHz Test Circuit (Relays as shown) 1997 Nov 07 5 Philips Semiconductors Product specification Low-voltage high performance mixer FM IF system SA606 C26 R18 3.3k R17 2.4k FLT1 C23 C21 FLT2 C18 C17 C15 20 19 18 17 16 15 14 13 12 11 IF AMP MIXER LIMITER RSSI QUAD OSCILLATOR +- VREG -+ 1 C1 2 3 4 5 6 7 R11 10k 8 9 10 C9 C12 C8 L1 C2 C7 C10 C5 L2 45MHz INPUT C6 X1 C19 390pF R10 10k C27 2.2F R19 11k IFT1 C14 RSSI OUTPUT VCC AUDIO NE606D/DK Demo Board Application Component List C1 C2 C5 C6 C7 C8 C9 C10 C12 C14 C15 C17 C18 C19 C21 51pF NPO Ceramic 220pF NPO Ceramic 100nF +10% Monolithic Ceramic 5-30pF trim cap 1nF Ceramic 10.0pF NPO Ceramic 100nF +10% Monolithic Ceramic 10F Tantalum (minimum) * 2.2F +10% Tantalum 100nF +10% Monolithic Ceramic 10pF NPO Ceramic 100nF +10% Monolithic Ceramic 100nF +10% Monolithic Ceramic 390pF +10% Monolithic Ceramic 100nF +10% Monolithic Ceramic C23 C26 C27 Flt 1 Flt 2 IFT 1 L1 L2 X1 R5 R10 R11 R17 R18 R19 100nF +10% Monolithic Ceramic 100nF +10% Monolithic Ceramic 2.2F Tantalum Ceramic Filter Murata SFG455A3 or equiv Ceramic Filter Murata SFG455A3 or equiv 330H TOKO 303LN-1130 .33H TOKO SCB-1320Z 1.2H 44.545MHz Crystal ICM4712701 Not Used in Application Board (see Note 8, pg 8) 8.2k +5% 1/4W Carbon Composition 10k +5% 1/4W Carbon Composition 2.4k +5% 1/4W Carbon Composition 3.3k +5% 1/4W Carbon Composition 11k +5% 1/4W Carbon Composition SR00350 * NOTE: This value can be reduced when a battery is the power source. Figure 4. SA606 45MHz Application Circuit 1997 Nov 07 6 Philips Semiconductors Product specification Low-voltage high performance mixer FM IF system SA606 RF GENERATOR 45MHz NE606 DEMO BOARD RSSI AUDIO VCC (+3) DE-EMPHASIS FILTER DC VOLTMETER C-MESSAGE SCOPE HP339A DISTORTION ANALYZER SR00351 Figure 5. SA606 Application Circuit Test Set Up NOTES: 1. C-message: The C-message and de-emphasis filter combination has a peak gain of 10 for accurate measurements. Without the gain, the measurements may be affected by the noise of the scope and HP339 analyzer. The de-emphasis filter has a fixed -6dB/Octave slope between 300Hz and 3kHz. 2. Ceramic filters: The ceramic filters can be 30kHz SFG455A3s made by Murata which have 30kHz IF bandwidth (they come in blue), or 16kHz CFU455Ds, also made by Murata (they come in black). All of our specifications and testing are done with the more wideband filter. 3. RF generator: Set your RF generator at 45.000MHz, use a 1kHz modulation frequency and a 6kHz deviation if you use 16kHz filters, or 8kHz if you use 30kHz filters. 4. Sensitivity: The measured typical sensitivity for 12dB SINAD should be 0.35V or -116dBm at the RF input. 5. Layout: The layout is very critical in the performance of the receiver. We highly recommend our demo board layout. 6. RSSI: The smallest RSSI voltage (i.e., when no RF input is present and the input is terminated) is a measure of the quality of the layout and design. If the lowest RSSI voltage is 500mV or higher, it means the receiver is in regenerative mode. In that case, the receiver sensitivity will be worse than expected. 7. Supply bypass and shielding: All of the inductors, the quad tank, and their shield must be grounded. A 10-15F or higher value tantalum capacitor on the supply line is essential. A low frequency ESR screening test on this capacitor will ensure consistent good sensitivity in production. A 0.1F bypass capacitor on the supply pin, and grounded near the 44.545MHz oscillator improves sensitivity by 2-3dB. 8. R5 can be used to bias the oscillator transistor at a higher current for operation above 45MHz. Recommended value is 10k. 1997 Nov 07 7 Philips Semiconductors Product specification Low-voltage high performance mixer FM IF system SA606 mA 6 VCC = 7V 5 VCC = 5V 4 VCC = 3V 3 VCC = 2.7V 2 -55 -35 -15 5 25 45 65 85 105 125 C SR00352 Figure 6. ICC vs Temperature -8.0 -8.5 -9.0 50 INPUT INTERCEPT POINT (dBm) 2.7V -9.5 -10.0 -10.5 -11.0 -11.5 -12.0 -12.5 -13.0 -13.5 -14.0 -40 3V 7V -30 -20 -10 0 10 20 30 40 50 60 70 80 Temperature (C) SR00353 Figure 7. Third Order Intercept Point vs Supply Voltage 1997 Nov 07 8 Philips Semiconductors Product specification Low-voltage high performance mixer FM IF system SA606 8.00 7.75 7.50 7.25 7.00 6.75 NOISE FIGURE 6.50 6.25 6.00 5.75 5.50 5.25 5.00 -40 -30 -20 -10 0 10 20 30 40 50 60 70 80 7.0V 3V 2.7V TEMPERATURE (C) SR00354 Figure 8. Mixer Noise Figure vs Supply Voltage 18.00 17.75 2.7V 17.50 CONVERSION GAIN (dB) 3V 17.25 7.0V 17.00 16.75 16.50 16.25 16.00 -40 -30 -20 -10 0 10 20 30 40 50 60 70 80 TEMPERATURE (C) SR00355 Figure 9. Conversion Gain vs Supply Voltage 1997 Nov 07 9 Philips Semiconductors Product specification Low-voltage high performance mixer FM IF system SA606 20 10 0 RF = 45MHz IF = 455kHz -10 IF OUTPUT POWER (-dBm) -20 -30 -40 FUND PRODUCT 3rd ORDER PRODUCT -50 -60 -70 *50 INPUT -80 -66 -56 -46 -36 -26 -16 -6 4 14 24 34 RF* INPUT LEVEL (dBm) SR00356 Figure 10. Mixer Third Order Intercept and Compression 1997 Nov 07 10 Philips Semiconductors Product specification Low-voltage high performance mixer FM IF system SA606 5 AUDIO 0 -5 -10 -15 -20 DECIBELS (dB) -25 -30 AM REJECTION -35 -40 -45 -50 -55 -60 NOISE -65 -125 -115 -105 -95 -85 -75 RF LEVEL (dBm) -65 -55 -45 -35 -25 THD + NOISE VCC = 3V RF = 45MHz DEVIATION = 8kHz AUDIO LEVEL = 104.9mVRMS SR00357 Figure 11. Sensitivity vs RF Level (-40C) 5 AUDIO 0 -5 -10 VCC = 3V RF = 45MHz -20 DECIBELS (dB) -25 -30 -35 -40 -45 -50 -55 -60 -65 -125 NOISE -115 -105 -95 -85 -75 RF LEVEL (dBm) -65 -55 -45 -35 -25 THD + NOISE AM REJECTION DEVIATION = 8kHz AUDIO LEVEL = 117.6mVRMS SR00358 Figure 12. Sensitivity vs RF Level (+25C) 1997 Nov 07 11 Philips Semiconductors Product specification Low-voltage high performance mixer FM IF system SA606 5 AUDIO 0 -5 -10 -15 -20 DECIBELS (dB) -25 -30 -35 -40 -45 THD + NOISE -50 -55 -60 -65 -125 NOISE -115 -105 -95 -85 -75 RF LEVEL (dBm) -65 -55 -45 -35 -25 AM REJECTION VCC = 3V RF = 45MHz DEVIATION = 8kHz AUDIO LEVEL = 127mVRMS SR00359 Figure 13. Sensitivity vs RF Level (Temperature 85C) 5 AUDIO 0 -5 -10 -15 -20 DECIBELS (dB) -25 -30 -35 -40 -45 -50 -55 -60 NOISE -65 -55 -35 -15 5 25 45 TEMPERATURE (C) 65 85 105 125 AM REJECTION DISTORTION VCC = 3V RF = 45MHz RF LEVEL = -45dBm DEVIATION = 8kHz AUDIO LEVEL = +117.6mVRMS SR00360 Figure 14. Relative Audio Level, Distortion, AM Rejection and Noise vs Temperature 1997 Nov 07 12 Philips Semiconductors Product specification Low-voltage high performance mixer FM IF system SA606 2.400 2.000 +85C 1.600 VOLTAGE (V) ROOM 1.200 -40C 0.800 0.400 0.000 -95 -85 -75 -65 -55 -45 IF LEVEL (dBm) -35 -25 -15 -5 5 SR00361 Figure 15. RSSI (455kHz IF @ 3V) 2.1 2.0 1.9 1.8 1.7 1.6 1.5 VOLTAGE (V) 1.4 1.3 1.2 1.1 1.0 0.9 0.8 0.7 0.6 0.5 0.4 0.3 -125 -115 -105 -95 -85 -75 -65 -55 -45 -35 -25 +85C +27C -40C RF LEVEL (dBm) SR00362 Figure 16. RSSI vs RF Level and Temperature - VCC = 3V 1997 Nov 07 13 Philips Semiconductors Product specification Low-voltage high performance mixer FM IF system SA606 V 300 250 VCC = 7V 200 mV RMS VCC = 5V 150 VCC = 3V 100 VCC = 2.7V 50 0 -55 -35 -15 5 25 45 65 85 105 125 C SR00363 Figure 17. Audio Output vs Temperature 1997 Nov 07 14 Philips Semiconductors Product specification Low-voltage high performance mixer FM IF system SA606 *Applies to Stand-Alone data sheets only. KTDN9/91 NE606 SR00365 Figure 18. SA606D SOL Product Board Layout (2X Actual Size* -- For Reference Use Only) 1997 Nov 07 15 Philips Semiconductors Product specification Low-voltage high performance mixer FM IF system SA606 606 Silk Screen 606 TOP 606 BOTTOM NOTE; All views are TOP VIEW and not actual size. For reference only. SR00366 Figure 19. 1997 Nov 07 16 Philips Semiconductors Product specification Low-voltage high-performance mixer FM IF system SA606 SO20: plastic small outline package; 20 leads; body width 7.5 mm SOT163-1 1997 Nov 07 17 Philips Semiconductors Product specification Low-voltage high-performance mixer FM IF system SA606 SSOP20: plastic shrink small outline package; 20 leads; body width 4.4 mm SOT266-1 1997 Nov 07 18 Philips Semiconductors Product specification Low-voltage high-performance mixer FM IF system SA606 DEFINITIONS Data Sheet Identification Objective Specification Product Status Formative or in Design Definition This data sheet contains the design target or goal specifications for product development. Specifications may change in any manner without notice. This data sheet contains preliminary data, and supplementary data will be published at a later date. Philips Semiconductors reserves the right to make changes at any time without notice in order to improve design and supply the best possible product. This data sheet contains Final Specifications. Philips Semiconductors reserves the right to make changes at any time without notice, in order to improve design and supply the best possible product. Preliminary Specification Preproduction Product Product Specification Full Production Philips Semiconductors and Philips Electronics North America Corporation reserve the right to make changes, without notice, in the products, including circuits, standard cells, and/or software, described or contained herein in order to improve design and/or performance. Philips Semiconductors assumes no responsibility or liability for the use of any of these products, conveys no license or title under any patent, copyright, or mask work right to these products, and makes no representations or warranties that these products are free from patent, copyright, or mask work right infringement, unless otherwise specified. Applications that are described herein for any of these products are for illustrative purposes only. Philips Semiconductors makes no representation or warranty that such applications will be suitable for the specified use without further testing or modification. LIFE SUPPORT APPLICATIONS Philips Semiconductors and Philips Electronics North America Corporation Products are not designed for use in life support appliances, devices, or systems where malfunction of a Philips Semiconductors and Philips Electronics North America Corporation Product can reasonably be expected to result in a personal injury. Philips Semiconductors and Philips Electronics North America Corporation customers using or selling Philips Semiconductors and Philips Electronics North America Corporation Products for use in such applications do so at their own risk and agree to fully indemnify Philips Semiconductors and Philips Electronics North America Corporation for any damages resulting from such improper use or sale. Philips Semiconductors 811 East Arques Avenue P.O. Box 3409 Sunnyvale, California 94088-3409 Telephone 800-234-7381 (c) Copyright Philips Electronics North America Corporation 1997 All rights reserved. Printed in U.S.A. Philips Semiconductors 1997 Nov 07 19 |
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