MAXIM Manuals (Industrial)

The MAX1003 is a high-performance, low-power dual 6-bit analog-to-digital converter (ADC) that can convert I and Q analog signals at sampling rates up to 90Msps in input ranges of 125mVp-p, 250mVp-p, or 500mVp-p. The device is ideal for use in direct-broadcast satellite, VSAT, and QAM16 demodulation applications.

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The MAX1002 is a dual, 6-bit analog-to-digital converter (ADC) that combines high-speed, low-power operation with a user-selectable input range, an internal reference, and a clock oscillator. The dual, parallel ADCs are designed to convert in-phase (I) and quadrature (Q) analog signals into two 6-bit offset-binary-coded digital outputs at sampling rates up to 60Msps while achieving typical integral nonlinearity (INL) and differential nonlinearity (DNL) of ±1/4LSB. The ability to interface directly with baseband I and Q signals makes the MAX1002 ideal for use in direct-broadcast satellite, VSAT, and QAM16 demodulation applications. The MAX1002 input amplifiers feature true differential inputs, a 55MHz -0.5dB analog bandwidth, and user-programmable input full-scale ranges of 125mVp-p, 250mVp-p, or 500mVp-p. With an AC-coupled input signal, matching performance between input channels is typically 0.1dB gain, 1/4LSB offset, and 0.5° phase. Dynamic performance is 5.85 effective number of bits (ENOB) with a 20MHz analog input signal, or 5.78 ENOB with a 50MHz input signal. The MAX1002 operates with a single +5V power supply and provides TTL-compatible digital outputs. The device is available in the commercial temperature range (0°C to +70°C) and comes in a 36-pin SSOP package.

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MAX104 is a 1Gsps, 8-bit PECL-compatible analog-to-digital converter (ADC) that allows accurate digitizing of analog signals with bandwidths to 2.2GHz. It is fabricated on Maxim's proprietary advanced GST-2 bipolar process and integrates a high-performance track/hold (T/H) amplifier and a quantizer on a single monolithic die.

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The MAX108 is a PECL-compatible, 1.5Gsps, 8-bit analog-to-digital converter (ADC) that allows accurate digitizing of analog signals with bandwidths to 2.2GHz.

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The MAX1446 is a 10-bit, 3V analog-to-digital converter (ADC) with a fully differential input, a pipelined 10-stage ADC architecture with digital error correction, and wideband track and hold (T/H) incorporating a fully differential signal path. This ADC is optimized for low-power, high dynamic performance applications in imaging and digital communications. The MAX1446 operates from a single 2.7V to 3.6V supply, consuming only 90mW while delivering a 59.5dB signal-to-noise ratio (SNR) at a 20MHz input frequency. The fully differential input stage has a 400MHz, -3dB bandwidth and may be operated with single-ended inputs. In addition to low operating power, the MAX1446 features a 5µA power-down mode for idle periods. An internal 2.048V precision bandgap reference is used to set the ADC full-scale range. A flexible reference structure allows the user to supply a buffered, direct or externally derived reference for applications requiring increased accuracy or a different input voltage range. Lower and higher speed, pin-compatible versions of the MAX1446 are also available. Refer to the MAX1444 data sheet for a 40Msps version, the MAX1448 data sheet for an 80Msps version, and the MAX1449 data sheet for a 105Msps version. The MAX1446 has parallel, offset binary, three-state outputs that can be operated from 1.7V to 3.3V to allow flexible interfacing. The device is available in a 5mm x 5mm, 32-pin TQFP package and is specified over the extended industrial (-4) temperature range.

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the max1444 is a 10-bit, 3v analog-to-digital converter (adc) that features a pipelined 10-stage adc architecture with fully differential wideband track-and-hold (t/h) input and digital error correction incorporating a fully differential signal path. this adc is optimized for low-power, high dynamic performance applications in imaging and digital communications. the max1444 operates from a single 2.7v to 3.6v supply, consuming only 57mw while delivering a 59.5db signal-to-noise ratio (snr) at a 20mhz input frequency. the fully differential input stage has a 400mhz -3db bandwidth and may be operated with single-ended inputs. in addition to low operating power, the max1444 features a 5µa power-down mode for idle periods. an internal 2.048v precision bandgap reference is used to set the adc full-scale range. a flexible reference structure allows the user to supply a buffered, direct, or externally derived reference for applications requiring increased accuracy or a different input voltage range. higher speed, pin-compatible versions of the max1444 are also available. please refer to the max1446 data sheet (60msps) and the max1448 data sheet (80msps). the max1444 has parallel, offset binary, cmos-compatible three-state outputs that can be operated from 1.7v to 3.6v to allow flexible interfacing. the device is available in a 5x5mm 32-pin tqfp package and is specified over the extended industrial (-40°c to +85°c) temperature range.

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The MAX1449 is a 3.3V, 10-bit analog-to-digital converter (ADC) with fully differential input, pipelined 10-stage ADC architecture with wideband track-and-hold (T/H), and digital error correction incorporating a fully differential signal path. The ADC is optimized for low-power, high-dynamic performance in imaging and digital communications applications. The converter operates from a single 2.7V to 3.6V supply, consuming only 186mW while delivering a 58.5dB (typ) signal-to-noise ratio (SNR) at a 20MHz input frequency. The fully differential input stage has a -3dB 400MHz bandwidth and may be operated with single-ended inputs. In addition to low operating power, the MAX1449 features a 5µA power-down mode for idle periods. An internal 2.048V precision bandgap reference is used to set the ADC’s full-scale range. A flexible reference structure allows the user to supply a buffered, direct, or externally derived reference for applications requiring increased accuracy or a different input voltage range. Lower speed, pin-compatible versions of the MAX1449 are also available. Refer to the MAX1444 data sheet for a 40Msps version, the MAX1446 data sheet for a 60Msps version, and the MAX1448 data sheet for 80Msps. The MAX1449 has parallel, offset binary, CMOS-com- patible, three-state outputs that can be operated from 1.7V to 3.6V to allow flexible interfacing. The device is available in a 5mm x 5mm 32-pin TQFP package and is specified over the extended i

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The MAX1426 is a 10-bit monolithic analog-to-digital converter (ADC) with a sampling rate of 10Msps. It features an internal track-and-hold (T/H) amplifier for excellent dynamic performance while minimizing external components. The low input capacitance of only 8pF reduces input drive requirements. With a wide input bandwidth of up to 150MHz, this device is suitable for digital RF/IF downconverter applications using undersampling techniques. The MAX1426 utilizes a differential pipelined architecture with a wideband T/H amplifier to maximize throughput while consuming only 156mW of power. It generates an internal +2.5V reference voltage that supplies three additional reference voltages (+3.25V, +2.25V, and +1.25V), providing a differential input range of +2V to -2V. The analog inputs are internally biased to correct the DC level, eliminating the need for external biasing in AC-coupled applications. A separate +3V digital logic supply input allows for the separation of digital and analog circuitry. The output data is in two's complement format. The MAX1426 is available in a space-saving 28-pin SSOP package. For a pin-compatible version with a higher data rate, refer to the MAX1424 or MAX1425.

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max107 is a 6-bit dual-channel analog-to-digital converter (adc) with differential outputs. it converts analog signals to digital outputs at 400msps.

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MAX105 is a 6-bit dual-channel high-precision analog-to-digital converter chip produced by Texas Instruments. It has wide bandwidth, low noise and high accuracy.

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The MAX1422 is a 3.3V, 12-bit analog-to-digital converter (ADC) that features a fully differential input, pipelined, 12-stage ADC architecture with wideband track-and-hold (T/H) and digital error correction incorporating a fully-dif- ferential signal path. The MAX1422 is optimized for low- power, high dynamic performance applications in imaging and digital communications. The converter operates from a single 3.3V supply, consuming only 137mW while delivering a 67dB (typ) signal-to-noise ratio (SNR) at a 5MHz input frequency and a 20Msps sampling frequency. The fully-differential input stage has a small signal -3dB bandwidth of 400MHz and may be operated with single-ended inputs. An internal 2.048V precision bandgap reference sets the ADCs full-scale range. A flexible reference structure accommodates an internally or externally applied buffered or unbuffered reference for applications requiring increased accuracy or a different input volt- age range. In addition to low operating power, the MAX1422 features two power-down modes, a reference power-down, and a shutdown mode. In reference power-down, the internal bandgap reference is deactivated, resulting in a 2mA (typ) supply current reduction. For idle periods, a full shutdown mode is available to maximize power savings. The MAX1422 provides parallel, offset binary, CMOS- compatible three-state outputs. The MAX1422 is available in a 7mm ✕ 7mm ✕ 1.4mm, 48-pin TQFP package and is specified over the com- mercial (0°C to 70°C) and industrial (-40°C to 85°C) temperature ranges.

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The MAX1420 is a 3.3V, 12-bit analog-to-digital converter (ADC) with a fully-differential input, pipelined, 12-stage ADC architecture featuring wideband track-and-hold (T/H) and digital error correction. It is designed for low-power, high dynamic performance applications in imaging and digital communications. The ADC operates from a single 3.3V supply and consumes only 221mW. The fully-differential input stage has a small signal -3dB bandwidth of 400MHz and can be operated with single-ended inputs. The full-scale range of the ADC is set by an internal 2.048V precision bandgap reference. The ADC also features a flexible reference structure that allows for an internal reference or externally applied buffered or unbuffered reference for applications requiring increased accuracy and a different input voltage range. In addition to low operating power, the MAX1420 offers two power-down modes: reference power-down and shutdown mode. In reference power-down mode, the internal bandgap reference is deactivated, resulting in a typical 2mA reduction in supply current. The full shutdown mode is available to maximize power savings during idle periods. The MAX1420 provides parallel, offset binary, CMOS-compatible three-state outputs. It is available in a 7mm x 7mm x 1.4mm, 48-

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The MAX1421 is a 3.3V, 12-bit analog-to-digital converter (ADC) with a fully-differential input, pipelined, 12-stage ADC architecture. It features wideband track-and-hold (T/H) and digital error correction with a fully-differential signal path. The MAX1421 is designed for low-power, high-dynamic performance applications in imaging and digital communications. It operates from a single 3.3V supply, consuming only 188mW of power while delivering a typical signal-to-noise ratio (SNR) of 66dB at an input frequency of 15MHz and a sampling frequency of 40Msps. The fully-differential input stage has a small signal -3dB bandwidth of 400MHz and can be operated with single-ended inputs. It uses an internal 2.048V precision bandgap reference to set the full-scale range of the ADC. The reference structure is flexible and can accommodate an internal or externally applied buffered or unbuffered reference for applications requiring increased accuracy or a different input voltage range. In addition to low operating power, the MAX1421 offers two power-down modes: reference power-down and shutdown mode. In reference power-down mode, the internal bandgap reference is deactivated, resulting in a typical 2mA supply current reduction. For idle periods, a full shutdown mode is available to maximize power savings. The MAX1421 provides parallel, offset binary, CMOS-compatible three-state outputs. It is available in a 7mm x 7mm, 48-pin TQFP package.

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The MAX1211 is a 3.3V, 12-bit analog-to-digital converter (ADC) featuring a fully differential wideband track-and-hold (T/H) input, driving the internal quantizer. The MAX1211 is optimized for low power, small size, and high dynamic performance in intermediate frequency (IF) sampling applications. This ADC operates from a single 3.0V to 3.6V supply, consuming only 340mW while delivering a typical signal-to-noise ratio (SNR) performance of 66.8dB at a 175MHz input frequency. The T/H-driven input stage accepts single-ended or differential inputs. In addition to low operating power, the MAX1211 features a 0.15mW power-down mode to conserve power during idle periods. A flexible reference structure allows the MAX1211 to use its internal precision bandgap reference or accept an externally applied reference. A common-mode reference is provided to simplify design and reduce external component count in differential analog input circuits. The MAX1211 supports both a single-ended and differential input clock drive. Wide variations in the clock duty cycle are compensated with the ADC’s internal duty-cycle equalizer. The MAX1211 features parallel, CMOS-compatible outputs. The digital output format is pin selectable to be either two’s complement or Gray code. A data-valid indicator eliminates external components that are normally required for reliable digital interfacing. A separate power input for the digital outputs accepts a voltage from 1.7V to 3.6V.

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The MAX1180 is a 3.3V, dual 10-bit, analog-to-digital converter (ADC) featuring fully-differential wideband track-and-hold (T/H) inputs, driving two pipelined, nine- stage ADCs. The MAX1180 is optimized for low-power, high-dynamic performance applications in imaging, instrumentation, and digital communication applications. The MAX1180 operates from a single 2.7V to 3.6V supply, consuming only 413mW, while delivering a typi- cal signal-to-noise ratio (SNR) of 58.5dB at an input fre- quency of 20MHz and a sampling rate of 105Msps. The T/H driven input stages incorporate 400MHz (-3dB) input amplifiers. The converters may also be operated with single-ended inputs. In addition to low operating power, the MAX1180 features a 2.8mA sleep mode, as well as a 1µA power-down mode to conserve power during idle periods. An internal 2.048V precision bandgap reference sets the full-scale range of the ADC. A flexible reference structure allows the use of the internal or external reference, if desired for applications requiring increased accuracy or a different input voltage range. The MAX1180 features parallel, CMOS-compatible three-state outputs. The digital output format is set to two’s complement or straight offset binary through a single control pin. The device provides for a separate output power supply of 1.7V to 3.6V for flexible interfac- ing. The MAX1180 is available in a 7mm ✕ 7mm, 48-pin TQFP package, and is specified for the extended industrial (-40°C to +85°C) temperature range.

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The MAX1205 is a 14-bit monolithic analog-to-digital converter (ADC) capable of conversion rates up to 1Msps. This integrated circuit, built on a CMOS pro- cess, uses a fully differential, pipelined architecture with digital error correction and a short self-calibration procedure that corrects for capacitor and gain mis- matches and ensures 14-bit linearity at full sample rates. An on-chip track/hold (T/H) maintains superb dynamic performance up to the Nyquist frequency. The MAX1205 operates from a single +5V supply. The fully differential inputs allow an input swing of ±VREF. The reference is also differential, with the posi- tive reference (RFPF) typically connected to +4.096V and the negative reference (RFNF) connected to ana- log ground. Additional sensing pins (RFPS, RFNS) are provided to compensate for any resistive-divider action that may occur due to finite internal and external resis- tances in the reference traces and the on-chip resis- tance of the reference pins. A single-ended input is also possible using two operational amplifiers. The power dissipation is typically 257mW at +5V, at a sampling rate of 1Msps. The device employs a CMOS- compatible, 14-bit parallel, two’s complement output data format. For higher sampling rates, the MAX1201 is a 2.2Msps pin-compatible upgrade to the MAX1205. The MAX1205 is availab

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The MAX1182 is a 3V, dual 10-bit analog-to-digital con- verter (ADC) featuring fully-differential wideband track- and-hold (T/H) inputs, driving two pipelined, 9-stage ADCs. The MAX1182 is optimized for low-power, high- dynamic performance applications in imaging, instru- mentation and digital communication applications. This ADC operates from a single 2.7V to 3.6V supply, con- suming only 195mW while delivering a typical signal-to- noise ratio (SNR) of 59dB at an input frequency of 20MHz and a sampling rate of 65Msps. The T/H driven input stages incorporate 400MHz (-3dB) input amplifiers. The converters may also be operated with single-ended inputs. In addition to low operating power, the MAX1182 features a 2.8mA sleep mode as well as a 1µA power- down mode to conserve power during idle periods. An internal 2.048V precision bandgap reference sets the full-scale range of the ADC. A flexible reference structure allows the use of the internal or an externally derived reference, if desired for applications requiring increased accuracy or a different input voltage range. The MAX1182 features parallel, CMOS-compatible three-state outputs. The digital output format is set to two’s complement or straight offset binary through a single control pin. The device provides for a separate output power supply of 1.7V to 3.6V for flexible interfac- ing. The MAX1182 is available in a 7mm x 7mm, 48-pin TQFP package, and is specified for the extended industrial (-40°C to +85°C) temperature range.

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The MAX1185 is a 3V, dual 10-bit analog-to-digital converter (ADC) featuring fully-differential wideband track-and-hold (T/H) inputs, driving two pipelined, nine-stage ADCs.

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The MAX1183 is a 3V, dual 10-bit analog-to-digital converter (ADC) featuring fully differential wideband track- and-hold (T/H) inputs, driving two pipelined, nine-stage ADCs. The MAX1183 is optimized for low-power, high dynamic performance applications in imaging, instrumen- tation, and digital communication applications. This ADC operates from a single 2.7V to 3.6V supply, consuming only 120mW while delivering a typical signal-to-noise ratio (SNR) of 59.6dB at an input frequency of 20MHz and a sampling rate of 40Msps. The T/H driven input stages incorporate 400MHz (-3dB) input amplifiers. The convert- ers may also be operated with single-ended inputs. In addition to low operating power, the MAX1183 features a 2.8mA sleep mode as well as a 1µA power-down mode to conserve power during idle periods. An internal 2.048V precision bandgap reference sets the full-scale range of the ADC. A flexible reference structure allows the use of this internal or an externally derived reference, if desired for applications requiring increased accuracy or a different input voltage range. The MAX1183 features parallel, CMOS-compatible three-state outputs. The digital output format can be set to two’s complement or straight offset binary through a single control pin. The device provides for a separate output power supply of 1.7V to 3.6V for flexible interfac- ing. The MAX1183 is available in a 7mm ✕ 7mm, 48-pin TQFP package, and is specified for the extended industrial (-40°C to 125°C) temperature range.

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