MAXIM Manuals
MAXIM DS4302 digital output datasheet
DS4302 is a 5-bit digital-to-analog converter with three programmable digital outputs. DS4302 communicates through a 2-wire, SMBus™-compatible, serial interface. The tiny 8-pin µSOP package is ideal for use in space-constrained applications.
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MAXIM MAX4172 Current-Sense Amplifier DATASHEET
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MAXIM MAX6765 MAX6774 regulators datasheet
MAX6765-MAX6774 series automotive micropower linear regulators with supervisor
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MAXIM MAX1587A evaluation kit datasheet
The MAX1587A is a high-performance synchronous step-down DC-DC power-management IC optimized for microprocessor-based applications. The IC integrates three high-performance synchronous step-down DC-DC power supplies, two low-dropout (LDO) regulators, a battery backup supply, and various power-management functions.
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MAXIM DS9106 iButtonTM Halo datasheet
This document describes the features and characteristics of DS9106 iButton Halos. It slides over an iButton and highlights it with a colored tab for quick sighting. The product is available in six bright colors and has a usable tail length of 20mm or 60mm for legends. The tail is secured using DS9096P adhesive pads. Each bag contains 1000 labels.
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MAXIM DS9093A DS9093F DS9093N iButton(TM) Key Ring Mounts datasheet
DS9093A and DS9093F are low-cost key ring mounts for iButton thumbpad applications. They offer different colors and models of key ring mounts.
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MAXIM MAX1799 evaluation kit datasheet
MAX1799 is an integrated circuit containing 5 programmable LDO linear regulators and 2 dedicated open-drain outputs. Each regulator can be individually adjusted from +1.8V to +3.3V. Two open-drain outputs can sink up to 150mA.
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MAXIM MAX2990 Power Line Communication Modem datasheet
The MAX2990 is a 10kHz to 490kHz OFDM-based power line communication modem. It provides a cost-effective, reliable, half-duplex asynchronous data communication over AC power lines at speeds up to 100kbps.
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MAXIM MAX1077/MAX1079 handbook(1)
The MAX1077/MAX1079 are low-power, high-speed, serial-output, 10-bit, analog-to-digital converters (ADCs) that operate at up to 1.5Msps and have an internal reference. These devices feature true-differential inputs, offering better noise immunity, distortion improvements, and a wider dynamic range over single-ended inputs. A standard SPI™/QSPI™/MICROWIRE™ interface provides the clock necessary for conversion. These devices easily interface with standard digital signal processor (DSP) synchronous serial interfaces. The MAX1077/MAX1079 operate from a single +2.7V to +3.6V supply voltage. The MAX1077/MAX1079 include a 2.048V internal reference. The MAX1077 has a unipolar analog input, while the MAX1079 has a bipolar analog input. These devices feature a partial power-down mode and a full power-down mode for use between conversions, which lower the supply current to 2mA (typ) and 1µA (max), respectively. Also featured is a separate power-supply input (VL), which allows direct interfacing to +1.8V to VDD digital logic. The fast conversion speed, low-power dissipation, excellent AC performance, and DC accuracy (±0.5 LSB INL) make the MAX1077/MAX1079 ideal for industrial process control, motor control, and base-station applications. The MAX1077/MAX1079 come in a 12-pin TQFN package, and are available in the commercial (0°C to +70°C) and extended (-40°C to +85°C) temperature ranges.
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MAXIM MAX1077/MAX1079 datasheet(1)
The MAX1077/MAX1079 are low-power, high-speed, serial-output, 10-bit, analog-to-digital converters (ADCs) that operate at up to 1.5Msps and have an internal reference. These devices feature true-differential inputs, offering better noise immunity, distortion improvements, and a wider dynamic range over single-ended inputs. A standard SPI™/QSPI™/MICROWIRE™ interface provides the clock necessary for conversion. These devices easily interface with standard digital signal processor (DSP) synchronous serial interfaces. The MAX1077/MAX1079 operate from a single +2.7V to +3.6V supply voltage. The MAX1077/MAX1079 include a 2.048V internal reference. The MAX1077 has a unipolar analog input, while the MAX1079 has a bipolar analog input. These devices feature a partial power-down mode and a full power-down mode for use between conversions, which lower the supply current to 2mA (typ) and 1µA (max), respectively. Also featured is a separate power-supply input (VL), which allows direct interfacing to +1.8V to VDD digital logic. The fast conversion speed, low-power dissipation, excellent AC performance, and DC accuracy (±0.5 LSB INL) make the MAX1077/MAX1079 ideal for industrial process control, motor control, and base-station applications. The MAX1077/MAX1079 come in a 12-pin TQFN package, and are available in the commercial (0°C to +70°C) and extended (-40°C to +85°C) temperature ranges.
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MAXIM MAX1076/MAX1078 datasheet
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MAXIM MAX1072/MAX1075 handbook
MAX1072/MAX1075 low-power, high-speed, serial-output, 10-bit, analog-to-digital converters (ADCs) operate at up to 1.8Msps.
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MAXIM MAX1070/MAX1071 handbook
The MAX1070/MAX1071 are low-power, high-speed, serial-output, 10-bit analog-to-digital converters (ADCs) that operate at up to 1.5Msps. These devices feature true-differential inputs, offering better noise immunity, distortion improvements, and a wider dynamic range over single-ended inputs. A standard SPI™/QSPI™/MICROWIRE™ interface provides the clock necessary for conversion. These devices easily interface with standard digital signal processor (DSP) synchronous serial interfaces. The MAX1070/MAX1071 operate from a single +2.7V to +3.6V supply voltage and require an external reference. The MAX1070 has a unipolar analog input, while the MAX1071 has a bipolar analog input. These devices feature a partial power-down mode and a full power-down mode for use between conversions, which lower the supply current to 1mA (typ) and 1µA (max), respectively. Also featured is a separate power-supply input (VL), which allows direct interfacing to +1.8V to VDD digital logic. The fast conversion speed, low-power dissipation, excellent AC performance, and DC accuracy (±0.5 LSB INL) make the MAX1070/MAX1071 ideal for industrial process control, motor control, and base-station applications. The MAX1070/MAX1071 come in a 12-pin TQFN package, and are available in the commercial (0°C to +70°C) and extended (-40°C to +85°C) temperature ranges.
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MAXIM MAX107 handbook
The MAX107 is a dual, 6-bit, analog-to-digital converter (ADC) designed to allow fast and precise digitizing of in-phase (I) and quadrature (Q) baseband signals. The MAX107 converts the analog signals of both I and Q components to digital outputs at 400Msps while achieving a signal-to-noise ratio (SNR) of typically 37dB with an input frequency of 125MHz, and an integral nonlinearity (INL) and differential nonlinearity (DNL) of ±0.25 LSB. The MAX107 analog input preamplifiers feature a 400MHz, -0.5dB, and a 1.5GHz, -3dB analog input bandwidth. Matching channel-to-channel performance is typically 0.04dB gain, 0.1LSB offset, and 0.2 degrees phase. Dynamic performance is 36.7dB signal-to-noise plus distortion (SINAD) with a 125MHz analog input signal and a sampling speed of 400MHz. A fully differential comparator design and encoding circuits reduce out-of-sequence errors, and ensure excellent metastable performance of only one error per 1016 clock cycles. In addition, the MAX107 provides LVDS digital outputs with an internal 6:12 demultiplexer that reduces the output data rate to one-half the sample clock rate. Data is output in two’s complement format. The MAX107 operates from a +5V analog supply and the LVDS output ports operate at +3.3V. The data converter’s typical power dissipation is 2.6W. The device is packaged in an 80-pin, TQFP package with exposed paddle, and is specified for the extended (-40°C to +85°C) temperature range.
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MAXIM MAX1069 handbook
The MAX1069 is a low-power, 14-bit successive- approximation analog-to-digital converter (ADC).
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MAXIM MAX1067/MAX1068 handbook(1)
The MAX1067/MAX1068 low-power, multichannel, 14-bit analog-to-digital converters (ADCs) feature a suc- cessive-approximation ADC, integrated +4.096V reference, a reference buffer, an internal oscillator, automatic power-down, and a high-speed SPI™/ QSPI™/MICROWIRE™-compatible interface. The MAX1067/MAX1068 operate with a single +5V analog supply and feature a separate digital supply, allowing direct interfacing with +2.7V to +5.5V digital logic. The MAX1067/MAX1068 consume only 2.9mA (AVDD = DVDD = +5V) at 200ksps when using an external refer- ence. AutoShutdown™ reduces the supply current to 145µA at 10ksps and to less than 10µA at reduced sam- pling rates. The MAX1067 includes a 4-channel input multiplexer, and the MAX1068 accepts up to eight analog inputs. In addition, digital signal processor (DSP)-initiated con- versions are simplified with the DSP frame-sync input and output featured in the MAX1068. The MAX1068 includes a data-bit transfer input to select between 8-bit-wide or 16- bit-wide data-transfer modes. Both devices feature a scan mode that converts each channel sequentially or one channel continuously. Excellent dynamic performance and low power, com- bined with ease of use and an integrated reference, make the MAX1067/MAX1068 ideal for control and data- acquisition operations or for other applications with demanding power consumption and space require- ments. The MAX1067 is available in a 16-pin QSOP package, and the MAX1068 is available in
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MAXIM MAX1067/MAX1068 datasheet(1)
MAX1067/MAX1068 are low-power, multichannel, 14-bit analog-to-digital converters (ADCs) featuring a successive-approximation ADC, integrated +4.096V reference, a reference buffer, an internal oscillator, automatic power-down, and a high-speed SPI™/QSPI™/MICROWIRE™-compatible interface. MAX1067/MAX1068 operate with a single +5V analog supply and feature a separate digital supply, allowing direct interfacing with +2.7V to +5.5V digital logic. MAX1067/MAX1068 consume only 2.9mA (AVDD = DVDD = +5V) at 200ksps when using an external reference. AutoShutdown™ reduces the supply current to 145µA at 10ksps and to less than 10µA at reduced sam- pling rates. The MAX1067 includes a 4-channel input multiplexer, and the MAX1068 accepts up to eight analog inputs. In addition, digital signal processor (DSP)-initiated con- versions are simplified with the DSP frame-sync input and output featured in the MAX1068. The MAX1068 includes a data-bit transfer input to select between 8-bit-wide or 16- bit-wide data-transfer modes. Both devices feature a scan mode that converts each channel sequentially or one channel continuously. Excellent dynamic performance and low power, com- bined with ease of use and an integrated reference, make the MAX1067/MAX1068 ideal for control and data- acquisition operations or for other applications with demanding power consumption and space require- ments. The MAX1067 is available in a 16-pin QSOP package, and the MAX1068 is available in
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MAXIM MAX1065/MAX1066 handbook
The MAX1065/MAX1066 14-bit, low-power successive approximation analog-to-digital converters (ADCs) fea- ture automatic power-down, a factory-trimmed internal clock, and a high-speed, 14-bit-wide (MAX1065) or byte-wide (MAX1066) parallel interface. The devices operate from a single 4.75V to 5.25V analog supply and a 2.7V to 5.25V digital supply. The MAX1065/MAX1066 use an internal 4.096V refer- ence or an external reference. The MAX1065/MAX1066 consume only 1.8mA at a sampling rate of 165ksps with external reference and 2.7mA with internal reference. AutoShutdown™ reduces supply current to 0.1mA at 10ksps. The MAX1065/MAX1066 are ideal for high-performance, battery-powered, data-acquisition applications. Excellent dynamic performance and low-power con- sumption in a small package make the MAX1065/ MAX1066 the best choice for circuits with demanding power consumption and space requirements. The 14-bit-wide MAX1065 is available in a 28-pin TSSOP package, and the byte-wide MAX1066 is available in a 20-pin TSSOP package. Both devices are available in either the 0°C to +70°C commercial, or the -40°C to +85°C extended temperature range.
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MAXIM MAX1062 handbook
The MAX1062 is a low-power, 14-bit analog-to-digital converter (ADC) that features a successive approximation ADC, automatic power-down, fast 1.1µs wake-up, and a high-speed SPI/QSPI/MICROWIRE-compatible interface. It operates with a single +5V analog supply and features a separate digital supply, allowing direct interfacing with 2.7V to 5.25V digital logic. At the maximum sampling rate of 200ksps, the MAX1062 consumes only 2.5mA. Power consumption is only 12.5mW (AVDD = DVDD = 5V) at a 200ksps (max) sampling rate. AutoShutdown™ reduces supply current to 130µA at 10ksps and to less than 10µA at reduced sampling rates. Excellent dynamic performance and low power, combined with ease of use and small package size (10-pin µMAX) make the MAX1062 ideal for battery-powered and data-acquisition applications or for other circuits with demanding power consumption and space requirements.
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MAXIM MAX1061/MAX1063 handbook(1)
The MAX1061/MAX1063 are low-power, 10-bit analog-to-digital converters (ADCs) that feature a successive-approximation ADC, automatic power-down, fast wake-up (2µs), an on-chip clock, +2.5V internal reference, and a high-speed, byte-wide parallel interface. They operate with a single +3V analog supply and feature a VLOGIC pin that allows them to interface directly with a +1.8V to +3.6V digital supply. Power consumption is only 5.7mW (VDD = VLOGIC) at the maximum sampling rate of 250ksps. Two software-selectable power-down modes enable the MAX1061/MAX1063 to be shut down between conversions; accessing the parallel interface returns them to normal operation. Powering down between conversions can cut supply current to under 10µA at reduced sampling rates. Both devices offer software-configurable analog inputs for unipolar/bipolar and single-ended/pseudo-differential operation. In single-ended mode, the MAX1061 has eight input channels and the MAX1063 has four input channels (four and two input channels, respectively, when in pseudo-differential mode). Excellent dynamic performance and low power, combined with ease of use and small package size, make these converters ideal for battery-powered and data-acquisition applications or for other circuits with demanding power consumption and space requirements.
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