LM324N
These devices consist of four independent high-gain ? Input Offset Current: 2 nA Typical
frequency-compensated operational amplifiers that
? Input Bias Current: 20 nA Typical are designed specifically to operate from a single
MMA Versions: 15 nA Typical supply or split supply over a wide range of voltages
LM324PT
Features
? Wide gain bandwidth: 1.3 MHz
? Input common mode voltage range includes ground
? Large voltage gain: 100 dB
? Very low supply current/amplifier: 375 ?A
? Low input bias current: 20 nA
? Low input voltage: 3 mV max.
? Low input offset current: 2 nA
? Wide power supply range:
? Single supply: 3 V to 30 V
? Dual supplies: ?1.5 V to ?15 V
Description
The LM124, LM224x and LM324x consist of four independent, high gain operational
amplifiers with frequency compensation implemented internally. They operate from a
single power supply over a wide range of voltages.
Operation from split power supplies is also possible and the low-power supply current
drain is independent of the magnitude of the power supply voltage.
LM324PW
Description
These devices consist of four independent high-gain ? Input Offset Current: 2 nA Typical
frequency-compensated operational amplifiers that
? Input Bias Current: 20 nA Typical are designed specifically to operate from a single
MMA Versions: 15 nA Typical supply or split supply over a wide range of voltages.
1 Features? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ?2 Application
1? 2-kV ESD Protection for:? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? Blu-ray Players and Home Theaters
? LM224K, LM224KA? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ?? Chemical and Gas Sensors
? LM324K, LM324KA? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ?? DVD Recorders and Players
? LM2902K, LM2902KV, LM2902KAV? ? ? ? ? ? ? ?? Digital Multimeter: Bench and Systems
? Wide Supply Ranges? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ?? Digital Multimeter: Handhelds
? Single Supply: 3 V to 32 V? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? Field Transmitter: Temperature Sensors
(26 V for LM2902)? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ? ?? Motor Control: AC Induction, Brushed DC,
? Dual Supplies: ?1.5 V to ?16 V
LM331AN/NOPB
The LMx31 family of voltage-to-frequency converters are ideally suited for use in simple low-cost circuits for analog-to-digital conversion, precision frequency frequency modulation or demodulation, and many other functions. The output when used as a voltage-to-voltage conversion, long-term integration, lineart-frequency converter is a pulse train at a frequency precisely proportional to the applied input voltage. Thus, it provides all the inherent advantages of the voltage-to-frequency conversion techniques, and is easy to apply in all standard voltage-to-frequency converter applications.
1 Features
Ensured Linearity 0.01% Maximum
Improved Performance in Existing Voltage-to-Frequency Conversion Applications
Split or Single-Supply Operation
Operates on Single 5-V Supply
Pulse Output Compatible With All Logic Forms
Excellent Temperature Stability: ?50 ppm/?C Maximum
Low Power Consumption: 15 mW Typical at 5 V
Wide Dynamic Range, 100 dB Minimum at 10-kHz
Full Scale Frequency
Wide Range of Full Scale Frequency: 1 Hz to 100 kHz
Low-Cost
LM331N/NOPB
The LMx31 family of voltage-to-frequency converters are ideally suited for use in simple low-cost circuits for analog-to-digital conversion, precision frequency frequency modulation or demodulation, and many other functions. The output when used as a voltage-to-voltage conversion, long-term integration, lineart-frequency converter is a pulse train at a frequency precisely proportional to the applied input voltage. Thus, it provides all the inherent advantages of the voltage-to-frequency conversion techniques, and is easy to apply in all standard voltage-to-frequency converter applications.
1 Features
Ensured Linearity 0.01% Maximum
Improved Performance in Existing Voltage-to-Frequency Conversion Applications
Split or Single-Supply Operation
Operates on Single 5-V Supply
Pulse Output Compatible With All Logic Forms
Excellent Temperature Stability: ?50 ppm/?C Maximum
Low Power Consumption: 15 mW Typical at 5 V
Wide Dynamic Range, 100 dB Minimum at 10-kHz
Full Scale Frequency
Wide Range of Full Scale Frequency: 1 Hz to 100 kHz
Low-Cost
LM335ADT
precision
temperature sensors which can be easily
calibrated. They operate as a 2-terminal Zener
and the breakdown voltage is directly proportional
to the absolute temperature at 10mV/?K.
The circuit has a dynamic impedance of less than
1? and operates within a range of current from
450?A to 5mA without alteration of its
characteristics.
LM335H
The LM135 series are precision, easily-calibrated,
1? Directly Calibrated to the Kelvin Temperature
integrated circuit temperature sensors. Operating as Scale
a 2-terminal zener, the LM135 has a breakdown
? 1?C Initial Accuracy Available voltage directly proportional to absolute temperature
? Operates from 400 ?A to 5 mA at 10 mV/?K. With less than 1-? dynamic impedance,
? Less than 1-? Dynamic Impedance the device operates over a current range of 400 ?A to
5 mA with virtually no change in performance. When
? Easily Calibrated calibrated at 25?C, the LM135 has typically less than
? Wide Operating Temperature Range 1?C error over a 100?C temperature range. Unlike
? 200?C Overrange other sensors, the LM135 has a linear output.
? Low Cost Applications for the LM135 include almost any type of
temperature sensing over a ?55?C to 150?C
2 Applications temperature range. The low impedance and linear
output make interfacing to readout or control circuitry
? Power Supplies
are especially easy.
? Battery Management
The LM135 operates over a ?55?C to 150?C
? HVAC temperature range while the LM235 operates over a
? Appliances ?40?C to 125?C temperature range. The LM335
operates from ?40?C to 100?C. The LMx35 devices
are available packaged in hermetic TO transistor
packages while the LM335 is also available in plastic
TO-92 packages
LM335M/NOPB
The LM135 series are precision, easily-calibrated,
1? Directly Calibrated to the Kelvin Temperature
integrated circuit temperature sensors. Operating as Scale
a 2-terminal zener, the LM135 has a breakdown
? 1?C Initial Accuracy Available voltage directly proportional to absolute temperature
? Operates from 400 ?A to 5 mA at 10 mV/?K. With less than 1-? dynamic impedance,
? Less than 1-? Dynamic Impedance the device operates over a current range of 400 ?A to
5 mA with virtually no change in performance. When
? Easily Calibrated calibrated at 25?C, the LM135 has typically less than
? Wide Operating Temperature Range 1?C error over a 100?C temperature range. Unlike
? 200?C Overrange other sensors, the LM135 has a linear output.
? Low Cost Applications for the LM135 include almost any type of
temperature sensing over a ?55?C to 150?C
2 Applications temperature range. The low impedance and linear
output make interfacing to readout or control circuitry
? Power Supplies
are especially easy.
? Battery Management
The LM135 operates over a ?55?C to 150?C
? HVAC temperature range while the LM235 operates over a
? Appliances ?40?C to 125?C temperature range. The LM335
operates from ?40?C to 100?C. The LMx35 devices
are available packaged in hermetic TO transistor
packages while the LM335 is also available in plastic
TO-92 packages.
LM335Z
Features
? Directly calibrated in ?K
? 1?C initial accuracy
? Operates from 450?A to 5mA
? Less than 1? dynamic impedance
Description
The LM135, LM235, LM335 are precision
temperature sensors which can be easily
calibrated. They operate as a 2-terminal Zener
and the breakdown voltage is directly proportional
to the absolute temperature at 10mV/?K.
The circuit has a dynamic impedance of less than
1? and operates within a range of current from
450?A to 5mA without alteration of its
characteristics.
Calibrated at 25?C, the LM135, LM235, and
LM335 have a typical error of less than 1?C over a
100?C temperature range. Unlike other sensors,
the LM135, LM235, LM335 have a linear output
LM336D-2.5V
Low Temperature Coefficient
Wide Operating Current . . . 400 ?A
to 10 mA
0.27-? Dynamic Impedance
?1% Tolerance Available
Specified Temperature Stability
Easily Trimmed for Minimum Temperature
Drift
Fast Turn on
Description
The LM236-2.5, LM336-2.5, and LM336B-2.5
integrated circuits are precision 2.5-V shunt
regulator diodes. These reference circuits
operate as low-temperature-coefficient 2.5-V
Zener diodes with a 0.2-? dynamic impedance. A
third terminal provided on the circuit allows the
reference voltage and temperature coefficient to
be trimmed easily.
The series is useful as precision 2.5-V low-voltage references (VZ) for digital voltmeters, power supplies, or
operational-amplifier circuitry. The 2.5-V voltage reference makes it convenient to obtain a stable reference from
5-V logic supplies. Devices in this series operate as shunt regulators, and can be used as either positive or
negative voltage references.
The LM236-2.5 is characterized for operation from ?25?C to 85?C. The LM336-2.5 and LM336B-2.5 are
characterized for operation from 0?C to 70?C.
LM336LP-2.5 V
Low Temperature Coefficient
Wide Operating Current . . . 400 ?A
to 10 mA
0.27-? Dynamic Impedance
?1% Tolerance Available
Specified Temperature Stability
Easily Trimmed for Minimum Temperature
Drift
Fast Turnon
Description
The LM236-2.5, LM336-2.5, and LM336B-2.5
integrated circuits are precision 2.5-V shunt
regulator diodes. These reference circuits
operate as low-temperature-coefficient 2.5-V
Zener diodes with a 0.2-? dynamic impedance. A
third terminal provided on the circuit allows the
reference voltage and temperature coefficient to
be trimmed easily.
The series is useful as precision 2.5-V low-voltage references (VZ) for digital voltmeters, power supplies, or
operational-amplifier circuitry. The 2.5-V voltage reference makes it convenient to obtain a stable reference from
5-V logic supplies. Devices in this series operate as shunt regulators, and can be used as either positive or
negative voltage references.
The LM236-2.5 is characterized for operation from ?25?C to 85?C. The LM336-2.5 and LM336B-2.5 are
characterized for operation from 0?C to 70?C.
