Maxim's Lowest Noise, Highest Linearity, 2GHz, Zero-IF I/Q Modulator Enables Four-Carrier WCDMA Base-Station Transmitters.SUNNYVALE, Calif. -- Maxim Integrated Products (Nasdaq:MXIM) introduces the MAX2022, the world's lowest noise, highest linearity, 2GHz, Zero-IF I/Q I/Q Inphase and Quadrature modulator Modulator Any device or circuit by means of which a desired signal is impressed upon a higher-frequency periodic wave known as a carrier. The process is called modulation. The modulator may vary the amplitude, frequency, or phase of the carrier. designed specifically for wireless infrastructure applications. The MAX2022 is the latest addition to Maxim's growing base-station portfolio, which includes complete RF-to-bits solutions for virtually every wireless standard. Ideally suited for 2.5G/3G base-station transceivers, the MAX2022 delivers over 23dBm and 51dBm of OIP OIP Office of International Programs OIP Observatoire International des Prisons (France) OIP Office of the Iraq Programme OIP Office of Information and Privacy (US DOJ) 3 and OIP2 performance, respectively, while maintaining an incredibly low output-noise density of less than -173.2dBm/Hz. Uncalibrated sideband sideband, any frequency component of a modulated carrier wave other than the frequency of the carrier wave itself, i.e., any frequency added to the carrier as a result of modulation; sidebands carry the actual information while the carrier contributes none at all. suppression is rated at 45.7dBc, and the unnulled carrier feedthrough feed·through n. A conductor connecting two circuits on opposite sides of a printed circuit board. is limited to -40.4dBm. The MAX2022 also delivers up to -20.8dBm of output power, with an exceptionally low -0.005dB/degrees Celsius variation over -40 degrees Celsius to +85 degrees Celsius. Output power flatness is also impressive at 0.32dB. Together, these features enable true four-carrier WCDMA/UMTS direct conversion architectures, with -27dBm/carrier power and 67dB adjacent channel leakage ratio (ACLR ACLR American Criminal Law Review (Georgetown University Law Center publication) ACLR Adjacent Channel Leakage Power Ratio ACLR Anterior Cruciate Ligament Reconstruction ACLR Amateur Cross Link Repeater ACLR Athlétic Club La Roche ) performance. The MAX2022 is ideal for 1500MHz (MegaHertZ) One million cycles per second. It is used to measure the transmission speed of electronic devices, including channels, buses and the computer's internal clock. A one-megahertz clock (1 MHz) means some number of bits (16, 32, 64, etc. to 2500MHz WCDMA (Wideband CDMA) A 3G high-speed digital data service provided by cellular carriers that use the TDMA or GSM technology worldwide, including AT&T (formerly Cingular) and T-Mobile in the U.S. , DCS/PCS/EDGE, cdma2000(R), and WiMAX(s) wireless infrastructure applications where high linearity and low noise figure are critical for maintaining high levels of ACLR and Error Vector Magnitude The error vector magnitude or EVM is a measure used to quantify the performance of a digital radio transmitter or receiver. A signal sent by an ideal transmitter or received by a receiver would have all constellation points precisely at the ideal locations, however various (EVM EVM Earned Value Management EVM Evaluation Module EVM Error Vector Magnitude EVM Electronic Voting Machine EVM Expert Group on Vitamins and Minerals EVM Economic Value Management EVM Extraneous Vegetable Matter EVM Extra-Value Meal EVM Electronic Voltmeter ) transmitter performance. In the case of WCDMA, the MAX2022 can deliver peak ACLR levels up to 71dB, 68dB, and 67dB for 1-carrier, 2-carrier, and 4-carrier operation, respectively. (See Figure 1 below for a complete depiction of ACLR, alternate channel leakage ratio (Alt CLR (Common Language Runtime) The runtime engine in Microsoft's .NET platform. The CLR compiles and executes programs in Microsoft Intermediate Language (MSIL). The counterpart to the CLR for the Common Language Infrastructure (CLI), ECMA's standard version of . ), and output noise as a function of carrier power.) The MAX2022 also yields a 3dB advantage in OP1dB linearity over the closest competing solution, and it offers an impressive 15dB advantage in output noise performance. (See Figure 2 below.) In addition, the superb output noise performance eliminates the need for an expensive transmit mask filter immediately following the modulator. The MAX2022 is the only 4-carrier modulator on the market to do this without the use of supplemental baseband I/Q buffer amplifiers. The elimination of this transmit filter also simplifies the design of digital predistortion architectures because the system's bandwidth will not be limited by the filter's mask. As a fully integrated SiGe ZIF modulator/demodulator, the MAX2022 integrates two state-of-the-art matched mixer cores for modulating in-phase and quadrature quadrature, in astronomy, arrangement of two celestial bodies at right angles to each other as viewed from a reference point. If the reference point is the earth and the sun is one of the bodies, a planet is in quadrature when its elongation is 90°. signals, three LO mixer amplifier drivers, and an LO quadrature splitter. On-chip baluns are also integrated to allow for single-ended RF and LO connections. (See Figure 3 below.) As an added feature, the baseband inputs have been matched to allow direct interfacing to the transmit DAC See D/A converter and discretionary access control. DAC - Digital to Analog Converter , thereby eliminating the need for costly I/Q buffer amplifiers. Through all this integration, the total board space used by the upconverting modulator is reduced by a factor of 4x; the discrete part count is reduced by 60%. More importantly, the MAX2022's ZIF architecture eliminates a complete IF transmit stage, thus resulting in further reductions in board size and lineup cost. Four IF amplifiers, two upconversion mixers, two LO buffer amplifiers, two filters, and a complete synthesizer (VCO (1) (Voltage Controlled Oscillator) An oscillator that can be tuned over a wide range of frequencies by applying a voltage (tuning voltage) to it. Used in many applications such as radio tuners, VCOs are less costly than crystal oscillators, but not as stable. + PLL PLL - phase-locked loop ) are effectively replaced by this single ZIF modulator. As part of its commitment to providing RF-to-bits solutions for the wireless infrastructure market, Maxim is now offering a complete UMTS/WCDMA transmitter reference design that capitalizes on the breakthrough technology provided by the MAX2022. Figure 4 (below) illustrates Maxim's transmitter solution which utilizes the recently introduced MAX5895 interpolating DAC, the MAX2057 RF VGA (Video Graphics Array) The display standard for the PC. All PC display adapters support VGA, and Windows machines boot up in "VGA mode" before switching to higher resolutions. , the MAX2015 RF power detector, and the MAX2016 gain and VSWR VSWR Voltage Standing Wave Ratio VSWR Vertical Standing Wave Ratio detector. Actual measurements from the reference design are given below. As shown, a targeted ACLR goal of 65dB is met for the 4-carrier case, with -6dBm/carrier output power and an exceptionally low noise floor of only -146dBm/Hz. The corresponding ACLR plots are provided in Figures 5a, 5b, and 5c (below).
Number of Carriers POUT per Carrier ACLR Noise Floor
(dBm) (dB) (dBm/Hz)
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1 0 73 -146
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2 -3 68 -146
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4 -6 66 -146
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The MAX2022 comes in a compact 6mm x 6mm, 3 6-pin thin QFN QFN Quad Flat No-Lead QFN Queen Fan Newsletter (rock band) QFN Quad Flat No Leads . Lead-free packaging is also available. Prices start at $8.95 (1000-up, FOB USA). Background White Paper Cost Pressures Within the Wireless Infrastructure Market Since the advent of cellular, designers have continually wrestled with two seemingly incompatible goals, namely to reduce the cost of their BTS BTS - Bug Tracking System hardware while maintaining (or even improving) overall radio performance. Recent competitive pressures within the industry are pushing base-station cost reduction efforts to the forefront of design, and engineers are now looking for dramatic ways to reduce the cost of BTS transceiver hardware. Cost reduction targets of 30% to 40% are commonplace with each new-generation design. On the radio front, there are two key ways to significantly reduce cost: the first -- and most effective -- approach is to increase the capacity of the radio lineup by employing multicarrier architectures (i.e., increase the ratio of carriers/radio). The second approach seeks to reduce the radio's overall component count. The MAX2022 achieves both objectives through its state-of-the-art, high performance, zero-IF transmit architecture. Zero-IF Architectural Opportunities and Challenges Zero-IF techniques are by no means new. Virtually all of today's mature handset designs employ Zero-IF (ZIF) architectures due to their simplicity and cost effectiveness. On the base-station front, however, ZIF architectures have been used sparingly due to their performance limitations. ZIF transmitters could historically support single-carrier cdmaOne(TM) and cdma2000 operation with adequate transmit mask performance. Unfortunately, the mask requirements for wide bandwidth applications, including W-CMDA and multicarrier cdma2000, were virtually impossible to meet with acceptable margins. The mask refers to the transmitter's spectral profile, and it is primarily defined by the lineup's cascaded ACLR performance. The 4-carrier WCDMA/UMTS designs are particularly daunting daunt tr.v. daunt·ed, daunt·ing, daunts To abate the courage of; discourage. See Synonyms at dismay. [Middle English daunten, from Old French danter, from Latin as ACLR limits of 65dB are often targeted for power levels on the order of -6dBm/carrier. Superheterodyne See superheterodyne receiver. architectures traditionally predominated due to their inherent superiority in ACLR performance. These designs, however, were noticeably inferior in terms of component count, board space, and power consumption. Two variations of the superheterodyne architecture are, nonetheless, currently found in base-station transmitter designs. (See Figures 6a and 6b below.) The first approach utilizes high-IF injection coupled with a single upconversion from IF to RF. While the single upconversion is obviously attractive from the standpoint of component count and layout, that architecture requires an exceptionally high-performance DAC. The advantages of this system are thus nullified by the complexity and cost of the data converter. Consequently, most base-station superheterodyne transmitters utilize a second, alternative approach: a double upconversion configuration which decreases the complexity and cost of the DAC, but leads to additional component count, layout space, and cost. Until the MAX2022, designers had to tolerate these architectural shortcomings in order to meet their performance and cost targets. MAX2022 Device Enablers The MAX2022 was specifically defined to address the linearity and noise limitations that historically plagued ZIF designs. At the core of the design are two of Maxim's propriety SiGe FET FET: see transistor. (Field Effect Transistor) One of two major categories of transistor; the other is bipolar. FETs use a gate element that, when charged, creates an electromagnetic field that changes the conductivity of a silicon mixers, key blocks originally developed as part of the MAX2039/MAX2041/MAX2043 and the MAX9994/MAX9995/MAX9996 families of high-linearity up-/down-converters. The LO drive circuits from these devices were also leveraged to provide an incredibly low-output phase noise of only -163.5dBc/Hz. For POUT levels less than -27dBm/carrier, the resulting output noise approaches the thermal limit at -173.2dBm/Hz. When combined in a classic quadrature configuration (Figure 2), these cores yield a cascaded noise floor which eclipses the closest competitors by as much as 15dB. (See Figures 1 and 3.) The P1dB linearity of the device is also superior by 3dB. Consequently, the MAX2022 holds an 18dB advantage in dynamic range over all competing modulators. MAX2022 Application Enablers The MAX2022 is ideal for wireless infrastructure applications spanning the 1500MHz to 2500MHz frequency range, including systems which address the WCDMA/UMTS, DCS/PCS/EDGE, cdma2000, and WiMAX standards. One key feature of this device is its superb output-noise performance which eliminates the need for a transmit mask filter immediately following the modulator. The MAX2022 design is the only 4-carrier modulator available that can accomplish this feat without using supplemental baseband I/Q buffer amplifiers. Eliminating this transmit filter enables, and inherently simplifies, the design of ZIF digital predistortion architectures because the system's bandwidth will not be limited by the filter's mask. Predistortion algorithms essentially compensate for 3rd and 5th (and often higher) order intermodulation in·ter·mod·u·la·tion n. Modulation of the frequencies of electromagnetic waves occurring when the waves interact as they are transmitted through a nonlinear electronic system. (IM) distortion products. The compensating algorithms must, therefore, generate complex signals with bandwidths that are 3x to 5x greater than the carrier bandwidth. The mask filter required by competing modulator designs will obviously compromise the predistortion algorithm as the mask response, at 1x the carrier bandwidth, will reject the compensating 3rd and 5th order corrections. Maxim Integrated Products is a leading international supplier of quality analog and mixed-signal products for applications that require real world signal processing. For more information, contact Maxim at 120 San Gabriel Dr., Sunnyvale, CA 94086. Telephone: 408-737-7600 or our URL URL in full Uniform Resource Locator Address of a resource on the Internet. The resource can be any type of file stored on a server, such as a Web page, a text file, a graphics file, or an application program. : www.maxim-ic.com. LIST OF FIGURES: Figure 1: http://www.maxim-ic.com/MAX2022Fig01 Figure 2: http://www.maxim-ic.com/MAX2022Fig02 Figure 3: http://www.maxim-ic.com/MAX2022Fig03 Figure 4: http://www.maxim-ic.com/MAX2022Fig04 Figure 5a: http://www.maxim-ic.com/MAX2022Fig05a Figure 5b: http://www.maxim-ic.com/MAX2022Fig05b Figure 5c: http://www.maxim-ic.com/MAX2022Fig05c Figure 6a: http://www.maxim-ic.com/MAX2022Fig06a Figure 6b: http://www.maxim-ic.com/MAX2022Fig06b DATA SHEET: A preliminary Data Sheet for this product is available on the web. http://www.maxim-ic.com/MAX2022 GRAPHIC: The graphic for this product is available on the web in three formats: PREVIEW image (smaller image to view in Navigator or Explorer): http://www.maxim-ic.com/PRGraphics/images/PR2022.jpg JPEG JPEG in full Joint Photographic Experts Group Standard computer file format for storing graphic images in a compressed form for general use. JPEG images are compressed using a mathematical algorithm. (300 dpi, high quality, RGB color): http://www.maxim-ic.com/PRGraphics/images/2022.jpg TIFF (300 dpi uncompressed CMYK (Cyan Magenta Yellow blacK) The color space used for commercial printing and most color computer printers. In theory, cyan, magenta and yellow (CMY) can print all colors, but inks are not pure and black comes out muddy. TIF TIF Tagged Image File (file name extension) TIF Tax Increment Financing TIF Temporary Internet Files TIF Transport Innovation Fund (UK) TIF Telecommunications Infrastructure Fund , in a .ZIP archive(1)): http://www.maxim-ic.com/PRGraphics/images/2022-cmyk-tif.zip ((1)Use Winzip, StuffIt Expander or similar de-archive utility to access the .ZIP file.) cdma2000 is a registered trademark of CDMA Development Group. cdmaOne is a trademark and cdma2000 is a registered trademark of CDMA Development Group. WiMAX is a service mark of Bandwidth.com, Inc. |
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