DUAL SLEEP-MODE OPERATIONAL AMPLIFIER

The MC33102 dual operational amplifier is an innovative design concept that has two separate states, a sleep mode and an awake mode. In sleep mode, the amplifier is active and waiting for an input signal. When a signal is applied causing the amplifier to source or sink 160 A (typically) to the loa

DUAL SLEEP-MODE OPERATIONAL AMPLIFIER

The MC33102 dual operational amplifier is an innovative design concept that has two separate states, a sleep mode and an awake mode. In sleep mode, the amplifier is active and waiting for an input signal. When a signal is applied causing the amplifier to source or sink 160 A (typically) to the loa

DUAL SLEEP-MODE OPERATIONAL AMPLIFIER

The MC33102 dual operational amplifier is an innovative design concept that has two separate states, a sleep mode and an awake mode. In sleep mode, the amplifier is active and waiting for an input signal. When a signal is applied causing the amplifier to source or sink 160 A (typically) to the loa

Low Voltage Compander

Advance Information Low Voltage Compander The MC33111 contains two variable gain circuits configured for compressing and expanding the dynamic range of an audio signal. One circuit is configured as an expander, and the other is configured as a compressor. Each circuit has a full wave recti

Low Voltage Compander Silicon Monolithic Integrated Circuit

The ML33111 contains two variable gain circuits configured for compress ing and expanding the dynamic range of an audio signal. One circuit is configured as an expander, and the other is configured as a compressor. Each circuit has a full wave rectifier to provide average value information to a va

Low Voltage Compander

Advance Information Low Voltage Compander The MC33111 contains two variable gain circuits configured for compressing and expanding the dynamic range of an audio signal. One circuit is configured as an expander, and the other is configured as a compressor. Each circuit has a full wave recti

Low Voltage Compander

Advance Information Low Voltage Compander The MC33111 contains two variable gain circuits configured for compressing and expanding the dynamic range of an audio signal. One circuit is configured as an expander, and the other is configured as a compressor. Each circuit has a full wave recti

Low Voltage Compander Silicon Monolithic Integrated Circuit

The ML33111 contains two variable gain circuits configured for compress ing and expanding the dynamic range of an audio signal. One circuit is configured as an expander, and the other is configured as a compressor. Each circuit has a full wave rectifier to provide average value information to a va

5V PCM Codec-Filter

5V PCM Codec-Filter

LOW VOLTAGE SUBSCRIBER LOOP INTERFACE CIRCUIT

The MC33121 is designed to provide the interface between the 4–wire side of a central office, or PBX, and the 2–wire subscriber line. Interface functions include battery feed, proper loop termination AC impedance, hookswitch detection, adjustable transmit, receive, and transhybrid gains, and singl

LOW VOLTAGE SUBSCRIBER LOOP INTERFACE CIRCUIT

The MC33121 is designed to provide the interface between the 4–wire side of a central office, or PBX, and the 2–wire subscriber line. Interface functions include battery feed, proper loop termination AC impedance, hookswitch detection, adjustable transmit, receive, and transhybrid gains, and singl

LOW VOLTAGE SUBSCRIBER LOOP INTERFACE CIRCUIT

The MC33121 is designed to provide the interface between the 4–wire side of a central office, or PBX, and the 2–wire subscriber line. Interface functions include battery feed, proper loop termination AC impedance, hookswitch detection, adjustable transmit, receive, and transhybrid gains, and singl

POWER MANAGEMENT CONTROLLER

Power Management Controller The MC33128 is a power management controller specifically designed for use in battery powered cellular telephone and pager applications. This device contains all of the active functions required to interface the user to the system electronics via a microprocessor. This

POWER MANAGEMENT CONTROLLER

Power Management Controller The MC33128 is a power management controller specifically designed for use in battery powered cellular telephone and pager applications. This device contains all of the active functions required to interface the user to the system electronics via a microprocessor. This

High Performance Current Mode Controllers

The MC34129/MC33129 are high performance current mode switching regulators specifically designed for use in low power digital telephone applications. These integrated circuits feature a unique internal fault timer that provides automatic restart for overload recovery. For enhanced system efficienc

High Performance Current Mode Controllers

The MC34129/MC33129 are high performance current mode switching regulators specifically designed for use in low power digital telephone applications. These integrated circuits feature a unique internal fault timer that provides automatic restart for overload recovery. For enhanced system efficienc

High Performance Current Mode Controllers

The MC34129/MC33129 are high performance current mode switching regulators specifically designed for use in low power digital telephone applications. These integrated circuits feature a unique internal fault timer that provides automatic restart for overload recovery. For enhanced system efficienc

High Speed Dual MOSFET Drivers

The MC34151/MC33151 are dual inverting high speed drivers specifically designed for applications that require low current digital circuitry to drive large capacitive loads with high slew rates. These devices feature low input current making them CMOS and LSTTL logic compatible, input hysteresis fo

High Speed Dual MOSFET Drivers

The MC34151/MC33151 are dual inverting high speed drivers specifically designed for applications that require low current digital circuitry to drive large capacitive loads with high slew rates. These devices feature low input current making them CMOS and LSTTL logic compatible, input hysteresis fo

High Speed Dual MOSFET Drivers

The MC34151/MC33151 are dual inverting high speed drivers specifically designed for applications that require low current digital circuitry to drive large capacitive loads with high slew rates. These devices feature low input current making them CMOS and LSTTL logic compatible, input hysteresis fo

High Speed Dual MOSFET Drivers

The MC34151/MC33151 are dual inverting high speed drivers specifically designed for applications that require low current digital circuitry to drive large capacitive loads with high slew rates. These devices feature low input current making them CMOS and LSTTL logic compatible, input hysteresis fo

High Speed Dual MOSFET Drivers

The MC34151/MC33151 are dual inverting high speed drivers specifically designed for applications that require low current digital circuitry to drive large capacitive loads with high slew rates. These devices feature low input current making them CMOS and LSTTL logic compatible, input hysteresis fo

High Speed Dual MOSFET Drivers

 The MC34152/MC33152 are dual noninverting high speed drivers specifically designed for applications that require low current digital signals to drive large capacitive loads with high slew rates. These devices feature low input current making them CMOS/LSTTL logic compatible, input hysteresis

High Speed Dual MOSFET Drivers

 The MC34152/MC33152 are dual noninverting high speed drivers specifically designed for applications that require low current digital signals to drive large capacitive loads with high slew rates. These devices feature low input current making them CMOS/LSTTL logic compatible, input hysteresis

High Speed Dual MOSFET Drivers

The MC34152/MC33152 are dual noninverting high speed drivers specifically designed for applications that require low current digital signals to drive large capacitive loads with high slew rates. These devices feature low input current making them CMOS/LSTTL logic compatible, input hysteresis for f

High Speed Dual MOSFET Drivers

The MC34152/MC33152 are dual noninverting high speed drivers specifically designed for applications that require low current digital signals to drive large capacitive loads with high slew rates. These devices feature low input current making them CMOS/LSTTL logic compatible, input hysteresis for f

High Speed Dual MOSFET Drivers

 The MC34152/MC33152 are dual noninverting high speed drivers specifically designed for applications that require low current digital signals to drive large capacitive loads with high slew rates. These devices feature low input current making them CMOS/LSTTL logic compatible, input hysteresis

High Speed Dual MOSFET Drivers

The MC34152/MC33152 are dual noninverting high speed drivers specifically designed for applications that require low current digital signals to drive large capacitive loads with high slew rates. These devices feature low input current making them CMOS/LSTTL logic compatible, input hysteresis for f

High Speed Dual MOSFET Drivers

The MC34152/MC33152 are dual noninverting high speed drivers specifically designed for applications that require low current digital signals to drive large capacitive loads with high slew rates. These devices feature low input current making them CMOS/LSTTL logic compatible, input hysteresis for f

High Speed Dual MOSFET Drivers

The MC34152/MC33152 are dual noninverting high speed drivers specifically designed for applications that require low current digital signals to drive large capacitive loads with high slew rates. These devices feature low input current making them CMOS/LSTTL logic compatible, input hysteresis for f

SINGLE IGBT HIGH CURRENT GATE DRIVER

The MC33154 is specifically designed as an IGBT driver for high powered applications including ac induction motor control, brushless dc motor control, and uninterruptable power supplies. This device also offers a cost effective solution for driving power MOSFETS and Bipolar transistors.

SINGLE IGBT HIGH CURRENT GATE DRIVER

The MC33154 is specifically designed as an IGBT driver for high powered applications including ac induction motor control, brushless dc motor control, and uninterruptable power supplies. This device also offers a cost effective solution for driving power MOSFETS and Bipolar transistors.

SINGLE IGBT HIGH CURRENT GATE DRIVER

The MC33154 is specifically designed as an IGBT driver for high powered applications including ac induction motor control, brushless dc motor control, and uninterruptable power supplies. This device also offers a cost effective solution for driving power MOSFETS and Bipolar transistors.

Half Bridge Controller and Driver for Industrial Linear Tubes

Half Bridge Controller and Driver for Industrial Linear Tubes The MC33157 includes the oscillator circuit and two output channels to control a half–bridge power stage. One of the channels is ground–referenced. The second one is floating to provide a bootstrap operation for the high side sw

Half Bridge Controller and Driver for Industrial Linear Tubes

Half Bridge Controller and Driver for Industrial Linear Tubes The MC33157 includes the oscillator circuit and two output channels to control a half–bridge power stage. One of the channels is ground–referenced. The second one is floating to provide a bootstrap operation for the high side sw

MICROPROCESSOR VOLTAGE REGULATOR/ SUPERVISORY CIRCUIT

The MC34160 Series is a voltage regulator and supervisory circuit containing many of the necessary monitoring functions required in microprocessor based systems. It is specifically designed for appliance and industrial applications, offering the designer a cost effective solution with minimal exte

MICROPROCESSOR VOLTAGE REGULATOR/ SUPERVISORY CIRCUIT

The MC34160 Series is a voltage regulator and supervisory circuit containing many of the necessary monitoring functions required in microprocessor based systems. It is specifically designed for appliance and industrial applications, offering the designer a cost effective solution with minimal exte

MICROPROCESSOR VOLTAGE REGULATOR/ SUPERVISORY CIRCUIT

The MC34160 Series is a voltage regulator and supervisory circuit containing many of the necessary monitoring functions required in microprocessor based systems. It is specifically designed for appliance and industrial applications, offering the designer a cost effective solution with minimal exte

Universal Voltage Monitors

Universal Voltage Monitors The MC34161/MC33161 are universal voltage monitors intended for use in a wide variety of voltage sensing applications. These devices offer the circuit designer an economical solution for positive and negative voltage detection. The circuit consists of two comparator c

Universal Voltage Monitors

Universal Voltage Monitors The MC34161/MC33161 are universal voltage monitors intended for use in a wide variety of voltage sensing applications. These devices offer the circuit designer an economical solution for positive and negative voltage detection. The circuit consists of two comparator c

Universal Voltage Monitors

Universal Voltage Monitors The MC34161/MC33161 are universal voltage monitors intended for use in a wide variety of voltage sensing applications. These devices offer the circuit designer an economical solution for positive and negative voltage detection. The circuit consists of two comparator c

Universal Voltage Monitors

Universal Voltage Monitors The MC34161/MC33161 are universal voltage monitors intended for use in a wide variety of voltage sensing applications. These devices offer the circuit designer an economical solution for positive and negative voltage detection. The circuit consists of two comparator c

5V UNDERVOLTAGE SENSING CIRCUIT

DESCRIPTION The MC33164 and the MC34164 are micropower undervoltage sensing circuits ideal for use in low-power battery applications, computer peripheral, consumer, appliance and automotive equipment. The device offers a 1.2V temperature compensated bandgap reference, a precision comparator with

3V UNDERVOLTAGE SENSING CIRCUIT

DESCRIPTION The MC33164-3 and MC34164-3 are undervoltage sensing circuits designed specifically for use as reset controllers in microprocessor-based systems. They offer the designer an economical, space efficient solution for low supply voltage detection when used in combination with a single pul

3V UNDERVOLTAGE SENSING CIRCUIT

DESCRIPTION The MC33164-3 and MC34164-3 are undervoltage sensing circuits designed specifically for use as reset controllers in microprocessor-based systems. They offer the designer an economical, space efficient solution for low supply voltage detection when used in combination with a single pul

3V UNDERVOLTAGE SENSING CIRCUIT

DESCRIPTION The MC33164-3 and MC34164-3 are undervoltage sensing circuits designed specifically for use as reset controllers in microprocessor-based systems. They offer the designer an economical, space efficient solution for low supply voltage detection when used in combination with a single pul

MICROPOWER UNDERVOLTAGE SENSING CIRCUITS

The MC34164 series are undervoltage sensing circuits specifically designed for use as reset controllers in portable microprocessor based systems where extended battery life is required. These devices offer the designer an economical solution for low voltage detection with a single external resisto

MICROPOWER UNDERVOLTAGE SENSING CIRCUITS

The MC34164 series are undervoltage sensing circuits specifically designed for use as reset controllers in portable microprocessor based systems where extended battery life is required. These devices offer the designer an economical solution for low voltage detection with a single external resisto

MICROPOWER UNDERVOLTAGE SENSING CIRCUITS

The MC34164 series are undervoltage sensing circuits specifically designed for use as reset controllers in portable microprocessor based systems where extended battery life is required. These devices offer the designer an economical solution for low voltage detection with a single external resisto

MICROPOWER UNDERVOLTAGE SENSING CIRCUITS

The MC34164 series are undervoltage sensing circuits specifically designed for use as reset controllers in portable microprocessor based systems where extended battery life is required. These devices offer the designer an economical solution for low voltage detection with a single external resisto

MICROPOWER UNDERVOLTAGE SENSING CIRCUITS

The MC34164 series are undervoltage sensing circuits specifically designed for use as reset controllers in portable microprocessor based systems where extended battery life is required. These devices offer the designer an economical solution for low voltage detection with a single external resisto

MICROPOWER UNDERVOLTAGE SENSING CIRCUITS

The MC34164 series are undervoltage sensing circuits specifically designed for use as reset controllers in portable microprocessor based systems where extended battery life is required. These devices offer the designer an economical solution for low voltage detection with a single external resisto

MICROPOWER UNDERVOLTAGE SENSING CIRCUITS

The MC34164 series are undervoltage sensing circuits specifically designed for use as reset controllers in portable microprocessor based systems where extended battery life is required. These devices offer the designer an economical solution for low voltage detection with a single external resisto

MICROPOWER UNDERVOLTAGE SENSING CIRCUITS

The MC34164 series are undervoltage sensing circuits specifically designed for use as reset controllers in portable microprocessor based systems where extended battery life is required. These devices offer the designer an economical solution for low voltage detection with a single external resisto

5V UNDERVOLTAGE SENSING CIRCUIT

DESCRIPTION The MC33164 and the MC34164 are micropower undervoltage sensing circuits ideal for use in low-power battery applications, computer peripheral, consumer, appliance and automotive equipment. The device offers a 1.2V temperature compensated bandgap reference, a precision comparator with

MICROPOWER UNDERVOLTAGE SENSING CIRCUITS

The MC34164 series are undervoltage sensing circuits specifically designed for use as reset controllers in portable microprocessor based systems where extended battery life is required. These devices offer the designer an economical solution for low voltage detection with a single external resisto

MICROPOWER UNDERVOLTAGE SENSING CIRCUITS

The MC34164 series are undervoltage sensing circuits specifically designed for use as reset controllers in portable microprocessor based systems where extended battery life is required. These devices offer the designer an economical solution for low voltage detection with a single external resisto

MICROPOWER UNDERVOLTAGE SENSING CIRCUITS

The MC34164 series are undervoltage sensing circuits specifically designed for use as reset controllers in portable microprocessor based systems where extended battery life is required. These devices offer the designer an economical solution for low voltage detection with a single external resisto

MICROPOWER UNDERVOLTAGE SENSING CIRCUITS

The MC34164 series are undervoltage sensing circuits specifically designed for use as reset controllers in portable microprocessor based systems where extended battery life is required. These devices offer the designer an economical solution for low voltage detection with a single external resisto