TO-99 Analog Waveform Generation 5

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Part RoHS Manufacturer Other IC type Temperature Grade No. of Terminals Package Code Package Shape Surface Mount Maximum Switching Frequency Package Body Material Maximum Supply Current (Isup) No. of Functions Technology Screening Level Terminal Form Nominal Negative Supply Voltage (Vsup) Nominal Supply Voltage (Vsup) Power Supplies (V) Maximum Output Frequency Package Style (Meter) Package Equivalence Code Sub-Category Terminal Pitch Maximum Operating Temperature Control Mode Minimum Operating Temperature Terminal Finish Terminal Position JESD-30 Code Moisture Sensitivity Level (MSL) Maximum Supply Voltage (Vsup) Maximum Seated Height Width (mm) Qualification Minimum Supply Voltage (Vsup) Additional Features JESD-609 Code Maximum Time At Peak Reflow Temperature (s) Peak Reflow Temperature (C) Length

ICM7555MTV

Maxim Integrated

SQUARE

MILITARY

1

TO-99

ROUND

NO

METAL

1

CMOS

WIRE

5 V

5

.5 GHz

CYLINDRICAL

CAN8,.2

Analog Waveform Generation Functions

125 Cel

-55 Cel

BOTTOM

O-MBCY-W8

1

16 V

Not Qualified

3 V

245

NE555H

STMicroelectronics

PULSE; RECTANGULAR

COMMERCIAL

8

TO-99

ROUND

NO

METAL

15 mA

1

BIPOLAR

WIRE

15 V

5/15

.5 GHz

CYLINDRICAL

CAN8,.2

Analog Waveform Generation Functions

70 Cel

0 Cel

TIN LEAD

BOTTOM

O-MBCY-W8

16 V

Not Qualified

4.5 V

e0

SA555H

STMicroelectronics

PULSE; RECTANGULAR

INDUSTRIAL

8

TO-99

ROUND

NO

METAL

15 mA

1

BIPOLAR

WIRE

15 V

5/15

.5 GHz

CYLINDRICAL

CAN8,.2

Analog Waveform Generation Functions

105 Cel

-40 Cel

TIN LEAD

BOTTOM

O-MBCY-W8

16 V

Not Qualified

4.5 V

e0

ICM7555ITV-T

Maxim Integrated

SQUARE

OTHER

8

TO-99

ROUND

NO

METAL

.3 mA

1

CMOS

WIRE

5 V

.5 GHz

CYLINDRICAL

85 Cel

-20 Cel

TIN LEAD

BOTTOM

O-MBCY-W8

18 V

Not Qualified

2 V

e0

ICM7555ITV

Maxim Integrated

SQUARE

OTHER

8

TO-99

ROUND

NO

METAL

.3 mA

1

CMOS

WIRE

5 V

5/15

.5 GHz

CYLINDRICAL

CAN8,.2

Analog Waveform Generation Functions

85 Cel

-20 Cel

TIN LEAD

BOTTOM

O-MBCY-W8

1

18 V

Not Qualified

2 V

e0

245

Analog Waveform Generation

Analog waveform generation refers to the creation of electrical signals that replicate a desired waveform shape. This is commonly done using electronic circuits that can generate sine, square, triangle, and other waveforms with a high degree of accuracy and precision.

Analog waveform generation is important in various applications, including in signal processing, audio and video signal generation, and in control systems. For example, in audio signal generation, analog waveform generators are used to create waveforms that are then amplified to create sound. In signal processing, analog waveform generators can be used to generate signals for testing and calibration of electronic circuits.

Analog waveform generation can be achieved using different types of circuits, including oscillators, function generators, and voltage-controlled oscillators. Oscillators are electronic circuits that generate a continuous waveform at a particular frequency, while function generators are electronic circuits that can generate a variety of waveforms, including sine, square, and triangle waveforms. Voltage-controlled oscillators (VCOs) are circuits that generate an output signal with a frequency that is proportional to a control voltage input.