Maxim MAX31855 Thermocouple-to-Digital Converters
Maxim MAX31855 Cold-Junction Compensated Thermocouple-to-Digital Converters perform cold-junction compensation and digitize the signal from a K-, J-, N-, T-, S-, R-, or E-type thermocouple. The data is output in a signed 14-bit, SPI™-compatible, read-only format. Maxim MAX31855 converters resolve temperatures to 0.25°C, allow readings as high as +1800°C and as low as -270°C, and exhibit thermocouple accuracy of ±2°C for temperatures ranging from -200°C to +700°C for K-type thermocouples. Maxim MAX31855 Thermocouple-to-Digital Converters are ideal for use in a variety of applications, including automotive, HVAC, and industrial.
Maxim MAX14756 / MAX14757 / MAX14758 Quad SPST Analog Switches
Maxim MAX14756 / MAX14757 / MAX14758 are quad SPST analog switches with a low on-resistance of 10Ω (max) that conduct equally well in both directions. These Maxim analog switches have a rail-to-rail analog-signal range. The MAX14756 / MAX14757 / MAX14758 operate with a single +10V to +70V supply in unipolar applications or ±35V dual supplies in bipolar applications. The bipolar supplies can be offset and do not have to be symmetrical. The MAX14756 is a quad normally closed (NC) single-pole/single-throw (SPST) switch, the MAX14757 is a quad normally open (NO) SPST switch, and the MAX14758 has two NO and two NC SPST switches. These Maxim analog switches are suitable for a multitude of analog signal routing and switching applications.
Maxim MAX14752 / MAX14753 72V Analog Multiplexers
Maxim MAX14752 and MAX14753 are 8-to-1 and dual 4-to-1 high-voltage 72V analog multiplexers. Both Maxim 72V devices feature 60Ω (typ) on-resistance with 0.03Ω (typ) on-resistance flatness. These low on-resistance multiplexers conduct equally well in either direction. The MAX14752 is an 8-to-1 multiplexer and the MAX14753 is a dual 4-to-1 multiplexer. Both Maxim devices operate with dual supplies of ±10V to ±36V or a single supply of +20V to +72V. These Maxim multiplexers are optimized for use in programmable-logic controllers, environmental control systems, and more.
Maxim IC MAX11607 10-Bit Multi-Channel Analog-to-Digital Converters
Maxim MAX11607 10-bit multi-channel analog-to-digital converters (ADCs) feature internal track/hold (T/H), voltage reference, clock, and an I²C-compatible 2-wire serial interface. Maxim MAX11607 ADCs operate from a single supply of 2.7V to 3.6V and require only 670µA at the maximum sampling rate of 94.4ksps. Supply current falls below 230µA for sampling rates under 46ksps. AutoShutdown™ powers down the devices between conversions, reducing supply current to less than 1µA at low throughput rates. The MAX11607 has four analog input channels and features a 2.048V internal reference. These Maxim ADCs are designed for use in a variety of applications, including handheld portable devices, medical instruments, and solar-powered remote systems.
Maxim MAX8600 / MAX8601 Dual-Input Linear Battery Chargers
Maxim MAX8600 Single-Input and MAX8601 Dual-Input Linear Battery Chargers safely charge single-cell LI+ batteries. The charging rate is optimized to accommodate the thermal characteristics of a given application. The Maxim MAX8601 automatically selects between either a USB or AC adapter input source. The AC adapter charge current is programmable, while USB charge current is set not to exceed either 100mA or 500mA, depending on the USEL input. Maxim MAX8600 Single-Input and MAX8601 Dual-Input Linear Battery Chargers are available in a 3mm x 3mm power-enhanced TDFN package. These Maxim devices are ideal for cell phones, portable media players, digital cameras, PDAs, MP3 players, and wireless applications.
Maxim MAX6765-MAX6774 Automotive Micropower Linear Regulators with Supervisor
Maxim MAX6765-MAX6774 automotive micropower linear regulators with supervisor are low quiescent-current devices that operate from 4V to 72V and deliver up to 100mA of load current. These Maxim micropower linear regulators consume only 31µA of quiescent current, making them ideal for always-on automotive modules. MAX6765-MAX6774 linear regulators are offered with 5V, 3.3V, 2.5V, and 1.8V fixed output-voltage options. MAX6765-MAX6774 devices are available in a small, thermally enhanced 3mmx3mm TDFN package that can dissipate up to 1.951W, supporting continuous regulator operation during high ambient temperatures, high battery voltage, and high load-current conditions. Maxim MAX6765-MAX6774 micropower linear regulators are designed for use in automotive, industrial, and telecom applications.
Maxim IC MAX6443-MAX6452 Microprocessor Reset Circuits
Maxim MAX6443-MAX6452 low-current microprocessor reset circuits feature single or dual manual reset inputs with an extended set up period. Because of the extended setup period, short switch closures (nuisance resets) are ignored. On all Maxim MAX644x and MAX645x microprocessor reset circuits, the reset output asserts when any of the monitored supply voltages drops below its specified threshold. The rest output remains asserted for the reset time period (210ms typ.) after all monitored supplies exceed their reset thresholds. The reset output is one-shot pulse asserted for the reset timeout period (140ms min.) when selected manual reset inputs are held low for an extended setup time period. These Maxim devices ignore manual reset transitions of less than the extended setup timeout period. The MAX6443-MAX6448 are single fixed-voltage microprocessor supervisors. The MAX6443 / MAX6444 have a single extended manual reset input. The MAX6445 and MAX6446 have two extended manual reset inputs. The MAX6447 / MAX6448 have one extended and one immediate manual reset input. MAX6449-MAX6452 devices have one fixed-threshold microprocessor supervisor and one adjustable-threshold microprocessor supervisor. The MAX6449 and MAX6450 have two delayed manual reset inputs. MAX6451 and MAX6452 devices have one delayed and one immediate manual reset input. Maxim MAX644x / MAX645x devices are ideal for use in set-top boxes, consumer electronics, DVD players, and more.
Maxim MAX1383 Dual 12-bit ADCs
Maxim MAX1383 dual 12-bit analog-to-digital converters (ADCs) with serial interface and internal voltage reference provide fast sampling rate, low power dissipation, and excellent dynamic performance MAX1383 ADCs operate from a 4.75V to 5.25V analog supply. A separate 1.8V to AVDD digital supply allows interfacing to low voltage logic without the use of level translators. Maxim MAX1383 ADCs are ideal for industrial process control, motor control, and RF applications.
Maxim IC MAX11060 16-Bit, 4-Channel Sigma-Delta ADCs
Maxim MAX11060 16-bit, 4-channel sigma-delta ADCs (analog-to-digital converters) allow simultaneous sampling of as many as 32 channels using a built-in cascade feature to synchronize as many as eight devices. The serial interface of the devices allows reading data from all the cascaded devices using a single command. Four modulators simultaneously convert each fully differential analog input with a programmable data output rate ranging from 0.25ksps to 64ksps. Maxim MAX11060 ADCs are ideally suited for power-management systems. Each channel of these Maxim ADCs includes an adjustable sampling phase enabling internal compensation for phase shift due to external dividers, transformers, or filters at the inputs.
Maxim IC MAX1551 / MAX1555 Single-Cell Li+ Battery Chargers
Maxim IC MAX1551 / MAX1555 dual-input single-cell Li+ battery chargers charge a single-cell Li+ battery from USB and AC adapter sources. These Maxim IC battery chargers operate with no external FETs or diodes and accept operating input voltages up to 7V. On-chip thermal limiting simplifies PC board layout and allows optimum charging rate without the thermal limits imposed by worst-case battery and input voltage. When the MAX1551 and MAX1555 thermal limits are reached, the chargers do not shut down but instead progressively reduce charging current. The MAX1551 includes a POK (power OK) output to indicate when input power is present. If either charging source is active, POK goes low. The MAX1555 instead features a CHG output to indicate charging status. These Maxim IC Li+ battery chargers are designed for use in PDAs, wireless appliances, cell phones, and digital cameras.
Maxim IC DS2431 1024-Bit 1-Wire® EEPROM
The Maxim DS2431 is a 1024-bit, 1-Wire® EEPROM chip organized as four memory pages of 256 bits each. Data is written to an 8-byte scratchpad, verified, and then copied to the EEPROM memory. The four memory pages of the Maxim IC DS2431 can be individually write protected or put in EPROM-emulation mode, where bits can only be changed from a 1 to a 0 state. The DS2431 EEPROM chip communicates over the single-conductor 1-Wire bus. The communication follows the standard 1-Wire protocol. Each DS2431 device has its own unalterable and unique 64-bit ROM registration number that is factory lasered into the chip. The registration number is used to address the device in a multidrop, 1-Wire net environment. These Maxim EEPROM devices are designed for use in a variety of applications, including accessory / PCB identification, medical sensor calibration data storage, and analog sensor calibration.
Maxim DS1343 Low-Current SPI / 3-Wire RTCs
Maxim DS1343 low-current SPI / 3-wire real-time clocks (RTCs) are time-keeping devices compatible with any 32.768 kHz crystal. The ability of the DS1343 to drive high ESR allows use of the smallest available surface mount crystals, saving board space. Maxim DS1343 RTCs also provide extremely low standby current, permitting longer life from a backup supply source. The clock/calendar provides seconds, minutes, hours, day, date, month, and year information. The date at the end of the month is automatically adjusted for months with fewer than 31 days, including corrections for leap year. The clock operates in either 24-hour or 12-hour format with an active-low AM/PM indicator. Address and data are transferred serially through an SPI or 3-wire interface. Two programmable time-of-day alarms are provided. Maxim DS1343 RTCs are designed for use in embedded timestamping, handheld devices, medical equipment, and telematics applications.
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Maxim MAX14972 5Gbps USB 3.0 Redrivers
Maxim MAX14972 5.0Gbps USB 3.0 Redrivers save power, increase design flexibility, and support the latest SuperSpeed USB interface. MAX14972 Single-Lane Redrivers reduce deterministic jitter and restore signal loss caused by circuit-board or signal cable losses by redriving, equalizing, and reconditioning the signals both in transmit and receive paths to and from the chipset. Maxim MAX14972 USB 3.0 Redrivers are designed for use in notebook computers, desktops, and servers/storage/workstations. These Maxim devices operate from a range of 0 to 70ºC and come in a RoHS compliant, 24-pin TQFN package.
Maxim IC MAX9947 AISG Integrated Transceiver
The Maxim IC MAX9947 is the industry's first AISG-compliant fully integrated transceiver for base stations and tower equipment. The Maxim MAX9947 AISG integrated transceiver, which is the Electronic Products Magazine Product of the Year, offers a typical dynamic range of 20dB and integrates a bandpass filter that operates in the 2.176MHz frequency with a narrow 200kHz bandwidth. The MAX9947 transmitter integrates a bandpass filter that is compliant with the AISG spectrum emission profile. It can modulate OOK signals up to 115.2kbps. The output power can be varied with external resistors from +7dBm to +12dBm to compensate for loss in the external circuitry and cabling. The MAX9947 AISG integrated transceiver also features a direction output to facilitate the RS-485 bus arbitration in tower-mounted equipment. This Maxim IC device is designed for use in base stations and tower equipment.
Maxim IC MAX17116 Dual-Output DC/DC Power Supply for AMOLED
Maxim IC MAX17116 Dual-Output DC/DC Power Supply ICs feature best-in-class efficiency and accuracy for improved image quality and battery lifetime in active-matrix organic LED (AMOLED) displays. Maxim IC MAX17116 power supply devices include two current-mode 1.4MHz switch mode power-supply (SMPS) regulators. The step-up DC-DC converter is a high-accuracy 250mA regulator with an integrated power MOSFET switch and synchronous rectifier. The synchronous rectifier improves efficiency and also provides True Shutdown™. Its 4.6V (fixed) output efficiency exceeds 85% at 150mA from a 3.7V input. The inverting DC-DC converter is a high-accuracy 250mA regulator with a built-in power MOSFET switch and synchronous rectifier. Its -5.4V to -1.5V output efficiency exceeds 80% at 150mA from a 3.7V input. Maxim MAX17116 Dual-Output DC/DC Power Supply ICs for AMOLED are optimized for use in OLED displays as well as phone/DSC displays, and automobile navigation applications.
Maxim IC MAX17710 Energy-Harvesting Charger and Protector
Maxim IC MAX17710 Energy-Harvesting Charger and Protector devices are the industry's first ICs to integrate all of the power-management functions for ambient energy harvesting and also for charging and protecting micro-energy cells (MECs). Maxim IC MAX17710 Energy-Harvesting Charger and Protector ICs can manage poorly regulated sources such as energy-harvesting devices with output levels ranging from 1µW to 100mW. The device also includes a booster regulator circuit for charging the cell from a source as low as 0.75V (typ). Maxim IC MAX17710 ICs are optimized for use in medical devices, high-temperature applications, remote wireless sensors, semiactive RFID tags, memory and real-time clock backup, toys, and more. The MAX17710EVKIT Evaluation Kit is a fully assembled and tested PCB that contains all the components necessary to evaluation the performance of the MAX17710. The evaluation kit features the THINERGY® micro-energy cell (MEC) solid-state, rechargeable, thin-power solution.
Maxim IC DS3231M I²C Real-Time Clock
The low-power Maxim IC DS3231M is the industry's first temperature-compensated Real Time Clock with internal MEMS resonator. This Maxim IC low-cost, extremely accurate, I²C RTC incorporates a battery input and maintains accurate timekeeping when main power to the device is interrupted. The DS3231M provides timekeeping accuracy of ±5ppm (±0.432 second/day) from -40ºC to 85ºC and complete calendar functionality, including seconds, minutes, hours, day, date, month, and year with leap-year compensation. The DS3231M includes two time-of-day alarms and also features 1Hz and 32.768kHz outputs. This Maxim IC RTC is optimized for use in power meters and industrial applications, and reduces crystal mechanical failure susceptibility.
Maxim IC MAX1393 / MAX1396 12-Bit SAR ADCs
Maxim IC MAX1393 and MAX1396 12-bit SAR analog-to-digital converters (ADCs) operate with a single power supply from +1.5V to +3.6V. Maxim IC MAX1393 and MAX1396 ADCs feature automatic shutdown, fast wake-up, and a highspeed 3-wire interface. Power consumption is only 0.734mW (VDD = +1.5V) at the maximum conversion rate of 312.5ksps, and AutoShutdown™ between conversions reduces power consumption at slower throughput rates. The MAX1393 features a single true-differential analog input channel with unipolar/bipolar select input. The MAX1396 provides a dual single-ended input channel with channel-select input. Excellent dynamic performance, low voltage, low power, ease of use, and small package sizes make these Maxim ADCs ideal for portable battery-powered data-acquisition applications and other applications demanding low power consumption and minimal space.
Maxim IC MAX66901 EV Kit for 13.56MHz RFID Keys
The Maxim IC MAX66901-K00 evaluation kit includes RFID keys and reader hardware for evaluation of Maxim's line of 13.56MHz RFID keys. The RFID keys can be used in access control, security, and eCash applications. The Maxim IC MAX66901 EV Kit demonstrates standard transactions using ISO 14443B and ISO 15693 protocols. This Maxim EV kit also allows you to evaluate the speed, reliability, and security of SHA-1-based mutual authentication. The fully documented serial-port command set allows the MAX66901 kit to be converted into a full-access control or eCash system.
Maxim IC MAX44264 Ultra-Small Op Amps
Maxim IC MAX44264 are ultra-small op amps that draw only 750nA of supply current. Maxim IC MAX44264 op amps come in a tiny, 0.4mm pitch WLP package and operate from a single +1.8V to 5.5V supply. These Maxim IC op amps feature ground-sensing inputs and rail-to-rail output. The rail-to-rail output stage of the MAX44264 is capable of driving the output voltage to within 4mV of the rail with a 100kΩ load, and can sink and source 11mA with a +5V supply. MAX44264 op amps are ideal for use in single lithium ion (Li+), two-cell NiCd, or alkaline battery systems. Target applications include cell phones, tablet / notebook computers, mobile accessories, and battery-powered devices.
Maxim IC MAX2062 Dual Analog / Digital Variable Gain Amplifiers
The Maxim IC MAX2062 is the industry's only fully programmable, multistate analog and digital dual variable gain amplifier (VGA). Maxim IC MAX2062 high-linearity dual analog / digital VGAs operate in the 50MHz to 1000MHz frequency range with two independent attenuators in each signal path. Each digital attenuator is controlled as a slave peripheral using either the SPI™-compatible interface or a 5-bit parallel bus with 31dB total adjustment range in 1dB steps. An added feature allows rapid-fire gain selection among each of the four steps preprogrammed by the user through the SPI-compatible interface. The Maxim IC MAX2062 analog / digital VGA is ideal for a variety of applications, including IF and RF gain stages, temperature-compensation circuits, GSM/EDGE base stations, and more.
Maxim IC MAX17435 High-Frequency SMBus Chargers
Maxim IC MAX17435 high-frequency SMBus chargers simplify construction of accurate and efficient chargers. The Maxim IC MAX17435 provides up to 7A of charge current to 2, 3, or 4 Li+ cells in series. MAX17435 SMBus chargers allow the charge setting to be programmed via the SMBus interface, eliminating the need for external components and improving design flexibility. The charge current and input current-limit sense amplifiers have low offset errors and can use 10mΩ sense resistors. These Maxim IC SMBus charger ICs are capable of operating at 850kHz and include a digital output that indicates the presence of the adapter, an analog output that indicates the adapter or battery current, and a digital output that indicates when the adapter current exceeds a user-defined threshold. The MAX17435 is ideal for use with notebook computers, PDAs, mobile communications devices, and 2- to 4- Li+ cell battery-powered devices.
Maxim IC MAX16946 LDO / Current Sense Switches
Maxim IC MAX16946 high-voltage, high-side current sense LDO / switches feature internal current limiting to prevent system damage due to fault conditions. The Maxim IC MAX16946 provides a fixed regulated 8.5V output voltage or an adjustable 3.3V to 15V output voltage. The MAX16946 can also be configured as a switch. The input voltage range for this Maxim IC current sense LDO / switch extends from 4.5V to 18V (45V tolerant), making it ideal for providing phantom power to remote radio-frequency LNAs in automotive applications. The MAX16946 monitors the load current and provides an analog output voltage proportional to the sensed load current. Accurate internal current limit protects against overload and short-circuit conditions. A fault-blanking feature allows the devices to ignore momentary faults such as those caused by the charging of capacitive loads during hot-swapping, preventing false alarms to the system. MAX16946 current-sense LDO / switches are designed for use in a variety of applications, including remote LNA phantom power, automotive safety and infotainment, and automotive remote module power.
Maxim IC MAX15004 Current-Mode PWM Controllers
Maxim IC MAX15004A and MAX15004B high-performance, current-mode PWM controllers operate down to 2.5V input voltage after startup and include output overvoltage protection for Vacuum Fluorescent Displays (VFDs). Maxim IC MAX15004 PWM controllers integrate all the building blocks necessary to for implementing fixed-frequency isolated/non-isolated power supplies. General purpose boost, flyback, forward, and SEPIC converters can be designed with ease around the MAX15004. The current-mode control architecture offers excellent line-transient response and cycle-by-cycle current limit while simplifying the frequency compensation. Programmable slope compensation simplifies the design further. A fast 60ns current-limit response time, low 300mV current-limit threshold makes the controllers suitable for high-efficiency, high-frequency DC-DC converters. The devices include an internal error amplifier and 1% accurate reference to facilitate the primary-side regulated, single-ended flyback converter or non-isolated converters. These Maxim IC PWM controllers are ideal for a variety of applications, including automotive, VFD power supply, and isolated flyback, forward, non-isolated SEPIC, and boost converters.
Maxim IC DS1302 Trickle-Charge Timekeeping Chip
The Maxim IC DS1302 trickle-charge timekeeping chip contains a real-time clock/calendar (RTC) and 31 bytes of static RAM. The DS1302 trickle-charge timekeeping chip communicates with a microprocessor via a simple serial interface. The RTC on this Maxim IC trickle-charge timekeeping chip provides seconds, minutes, hours, day, date, month, and year information. The end of month date is automatically adjusted for months with fewer than 31 days, including corrections for leap year. The clock operates in either the 24-hour or 12-hour format with an AM/PM indicator. Interfacing the DS1302 with a microprocessor is simplified by using synchronous serial communication. Data can be transferred to and from the clock/RAM 1 byte at a time or in a burst of up to 31 bytes. The DS1302 is designed to operate on very low power and retain data and clock information on less than 1µW. This Maxim IC timekeeping chip also features dual power pins for primary and backup power supplies, programmable trickle charger for Vcc1, and seven additional bytes of scratchpad memory.
Maxim IC DS1307 Serial Real-Time Clock
The Maxim IC DS1307 serial real-time clock (RTC) is a low-power, full binary-coded decimal (BCD) clock/calendar plus 56 bytes of NV SRAM. The Maxim IC DS1307 RTC transfers address and data serially through an I²C, bidirectional bus. The clock/calendar on the DS1307 provides seconds, minutes, hours, day, date, month, and year information. The end of the month date is automatically adjusted for months with fewer than 31 days, including corrections for leap year. The clock on the Maxim IC RTC operates in either the 24-hour or 12-hour format with AM/PM indicator. The DS1307 has a built-in power-sense circuit that detects power failures and automatically switches to the backup supply. Timekeeping operation continues while the part operates from the backup supply.
Maxim MAX97000 / MAX97001E Audio Subsystem
The Maxim MAX97000 and MAX97001 audio subsystem ICs combine a mono speaker amplifier with a stereo headphone amplifier and an analog DPST switch. The headphone and speaker amplifiers of these Maxim IC devices have independent volume control and on/off control. The four inputs are configurable as two differential inputs or four single-ended inputs. The MAX97000 and MAX97001 audio subsystem devices are designed for maximum efficiency. The high-efficiency 700mW (MAX97001) / 725mW (MAX97000) Class D speaker amplifier operates directly from the battery and consumes no more than 1µA in shutdown mode. The Class H headphone amplifier of the Maxim MAX97000 / MAX97001 utilizes a dual-mode charge pump to maximize efficiency while outputting a ground-referenced signal that does not require output coupling capacitors. The speaker amplifier incorporates a distortion limiter to automatically reduce the volume level when excessive clipping occurs. This allows high gain for low-levels signals without compromising the quality of large signals.
Maxim MAX15041 Step-Down DC/DC Regulator with Internal Switch
The MAX15041 Step-Down DC/DC Regulator from Maxim IC is a low-cost, synchronous DC-DC converter with an internal switch that delivers an output current up to 3A. Maxim's MAX 15041 Series Step-Down DC/DC Regulator operates from an input voltage range of 4.5V to 28V and features a peak-current-mode PWM controller with an internally fixed 350kHz switching frequency and a 90% maximum duty cycle. This synchronous buck regulator also features internal MOSFETs that provide better efficiency than asynchronous solutions, thermal shutdown, overcurrent protection (high-side sourcing and low-side sinking), an internal 5V LDO with undervoltage lockout, and more. In addition, Maxim's MAX 15041 regulator ensures safe startup when powering into a prebiased output.
Maxim IC MAX2991 PLC Integrated Analog Front-End Transceiver
The Maxim MAX2991 power-line communication (PLC)
integrated analog front end (AFE)
transceiver is a state-of-the-art IC
that delivers high integration and superb performance while reducing the
total system cost. The MAX2991 PLC AFE transceiver is
the first analog front end specifically designed for OFDM
modulated signal transmission over power lines. This Maxim
transceiver operates in the 10kHz to 490kHz band. The
programmable filters allow compliance with CENLEC, FCC, and ARIB
standards using the same device. The MAX2991 AFE transceiver
features an integrated band select filter, AGC, and 10-bit ADC for Rx
path and also provides a variable sampling rate up to 1.2Msps. This Maxim
transceiver is optimized for use in automatic meter reading,
home automation, HVAC, and other applications.
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Maxim IC MAX14502A High-Speed USB-to-SD Card Readers with Bypass
Maxim IC MAX14502A Hi-Speed USB-to-SD card readers with Bypass upgrade the USB SD card reader function of portable devices to USB Hi-Speed (480Mbps) operation. Maxim IC MAX14502A card readers accommodate clock input frequencies of 19.2MHz and feature USB 2.0 Hi-Speed and Full-Speed compliance and SDHC card support. The MAX14502A features pass thru and card reader modes of operation. The card reader mode allows the MAX14502A to implement a Hi-Speed USB card reader that operates independently of the host microprocessor. This mode preserves all the capabilities of the full-speed USB port and SD card slot while allowing a faster way for a PC to read or write to the SD card. These Maxim IC USB-to-SD card readers feature advanced power-saving modes to reduce power consumption in portable applications.
Maxim MAX9632 Wide-Band Operational Amplifier
The Maxim MAX9632 wide-band operational amplifier is optimized for excellent AC dynamic performance, ultra-low-noise, wide operating voltage range, and low-drift signal conditioning. This Maxim device provides high-fidelity signal conditioning with THD specifications better than -136dB, enabling use in professional audio equipment and high-end test and instrumentation applications. The MAX9632 op amp targets industrial data-acquisition applications that require precision signal conditioning at low frequencies. This Maxim op amp features exceptionally fast settling time and low distortion. The rail-to-rail output swing maximizes the dynamic range when driving high-resolution 24-bit ∑Δ analog-to-digital converters even with low supply voltages. The MAX9632 IC achieves 55MHz of gain-bandwidth product and ultra-low 0.94nV/√Hz input voltage noise with only 3.9mA of quiescent current.