Analog Devices Inc. AD835AR-REEL7
- Part Number:
- AD835AR-REEL7
- Manufacturer:
- Analog Devices Inc.
- Ventron No:
- 3195350-AD835AR-REEL7
- Description:
- IC MULTIPLIER 4-QUADRANT 8-SOIC
- Datasheet:
- AD835AR-REEL7
Analog Devices Inc. AD835AR-REEL7 technical specifications, attributes, parameters and parts with similar specifications to Analog Devices Inc. AD835AR-REEL7.
- Package / Case8-SOIC (0.154, 3.90mm Width)
- Surface MountYES
- PackagingTape & Reel (TR)
- JESD-609 Codee0
- Pbfree Codeno
- Part StatusObsolete
- Moisture Sensitivity Level (MSL)1 (Unlimited)
- Number of Terminations8
- Terminal FinishTIN LEAD
- TechnologyBIPOLAR
- Terminal PositionDUAL
- Terminal FormGULL WING
- Peak Reflow Temperature (Cel)240
- Supply Voltage5V
- Terminal Pitch1.27mm
- Reach Compliance Codeunknown
- Reflow Temperature-Max (s)30
- JESD-30 CodeR-PDSO-G8
- FunctionAnalog Multiplier
- Qualification StatusCOMMERCIAL
- Operating Temperature (Max)85°C
- Operating Temperature (Min)-40°C
- Supply Voltage-Max (Vsup)5.5V
- Temperature GradeINDUSTRIAL
- Supply Voltage-Min (Vsup)4.5V
- Bandwidth250MHz
- Neg Supply Voltage-Nom (Vsup)-5V
- Neg Supply Voltage-Max (Vsup)-5.5V
- Neg Supply Voltage-Min (Vsup)-4.5V
- Positive Input Voltage-Max1V
- Negative Input Voltage-Max-1V
- Number of Bits/Stages4-Quadrant
- Height Seated (Max)2.59mm
- Length4.9mm
- Width3.9mm
- RoHS StatusNon-RoHS Compliant
AD835AR-REEL7 Overview
The packaging of this product consists of Tape & Reel (TR).Consequently, it is embedded in the 8-SOIC (0.154, 3.90mm Width) package to ensure cost-effectiveness.It is common to use 4-Quadrant bits per stage.The voltage supply for this device is 5V.This device is supplied with a nominally negative voltage of -5V.Radio-frequency signals modulated in the frequency range of 250MHz occupy the range of 250MHz.In order to prevent signals from reflecting off the other end of the transmission line, there are 8 terminations.The component with the lowest tolerance for high temperatures determines the reflow temperature limit of 240.Maximum operating temperatures are permitted to reach 85°C.In order to maintain normal operation, the maximum supply voltage is set at 5.5V.-40°C is the minimum operating temperature that can be maintained.
AD835AR-REEL7 Features
Supplied in the 8-SOIC (0.154, 3.90mm Width) package
Bandwidth of 250MHz
AD835AR-REEL7 Applications
There are a lot of Rochester Electronics, LLC AD835AR-REEL7 Analog Multipliers & Dividers applications.
Precision measurement
Car stereo
Home and commercial audio systems
Mobile phone
Fast A/D and D/A converters, video amplifiers
Industrial control system
Instrumentation
Tablets
High speed sample
High-frequency data acquisition systems
The packaging of this product consists of Tape & Reel (TR).Consequently, it is embedded in the 8-SOIC (0.154, 3.90mm Width) package to ensure cost-effectiveness.It is common to use 4-Quadrant bits per stage.The voltage supply for this device is 5V.This device is supplied with a nominally negative voltage of -5V.Radio-frequency signals modulated in the frequency range of 250MHz occupy the range of 250MHz.In order to prevent signals from reflecting off the other end of the transmission line, there are 8 terminations.The component with the lowest tolerance for high temperatures determines the reflow temperature limit of 240.Maximum operating temperatures are permitted to reach 85°C.In order to maintain normal operation, the maximum supply voltage is set at 5.5V.-40°C is the minimum operating temperature that can be maintained.
AD835AR-REEL7 Features
Supplied in the 8-SOIC (0.154, 3.90mm Width) package
Bandwidth of 250MHz
AD835AR-REEL7 Applications
There are a lot of Rochester Electronics, LLC AD835AR-REEL7 Analog Multipliers & Dividers applications.
Precision measurement
Car stereo
Home and commercial audio systems
Mobile phone
Fast A/D and D/A converters, video amplifiers
Industrial control system
Instrumentation
Tablets
High speed sample
High-frequency data acquisition systems
AD835AR-REEL7 More Descriptions
IC MULTIPLIER 4-QUADRANT 8-SOIC
Analog Multiplier 4-Bit 8-Pin SOIC N T/R
The AD835 is a complete four-quadrant, voltage output analog multiplier, fabricated on an advanced dielectrically isolated complementary bipolar process. It generates the linear product of its X and Y voltage inputs with a -3 dB output bandwidth of 250 MHz (a small signal rise time of 1 ns). Full-scale (-1 V to 1 V) rise to fall times are 2.5 ns (with a standard RL of 150 O), and the settling time to 0.1% under the same conditions is typically 20 ns. Its differential multiplication inputs (X, Y) and its summing input (Z) are at high impedance. The low impedance output voltage (W) can provide up to ±2.5 V and drive loads as low as 25 O. Normal operation is from ±5 V supplies. Though providing state-of-the-art speed, the AD835 is simple to use and versatile. For example, as well as permitting the addition of a signal at the output, the Z input provides the means to operate the AD835 with voltage gains up to about ×10. In this capacity, the very low product noise of this multiplier (50 nV/vHz) makes it much more useful than earlier products. The AD835 is available in an 8-lead PDIP package (N) and an 8-lead SOIC package (R) and is specified to operate over the -40°C to 85°C industrial temperature range. APPLICATIONS Very fast multiplication, division, squaring Wideband modulation and demodulation Phase detection and measurement Sinusoidal frequency doubling Video gain control and keying Voltage-controlled amplifiers and filters PRODUCT HIGHLIGHTS The AD835 is the first monolithic 250 MHz, four-quadrant voltage output multiplier. Minimal external components are required to apply the AD835 to a variety of signal processing applications. High input impedances (100 kO||2 pF) make signal source loading negligible. High output current capability allows low impedance loads to be driven. State-of-the-art noise levels achieved through careful device optimization and the use of a special low noise, band gap voltage reference. Designed to be easy to use and cost effective in applications that require the use of hybrid or board-level solutions.
Analog Multiplier 4-Bit 8-Pin SOIC N T/R
The AD835 is a complete four-quadrant, voltage output analog multiplier, fabricated on an advanced dielectrically isolated complementary bipolar process. It generates the linear product of its X and Y voltage inputs with a -3 dB output bandwidth of 250 MHz (a small signal rise time of 1 ns). Full-scale (-1 V to 1 V) rise to fall times are 2.5 ns (with a standard RL of 150 O), and the settling time to 0.1% under the same conditions is typically 20 ns. Its differential multiplication inputs (X, Y) and its summing input (Z) are at high impedance. The low impedance output voltage (W) can provide up to ±2.5 V and drive loads as low as 25 O. Normal operation is from ±5 V supplies. Though providing state-of-the-art speed, the AD835 is simple to use and versatile. For example, as well as permitting the addition of a signal at the output, the Z input provides the means to operate the AD835 with voltage gains up to about ×10. In this capacity, the very low product noise of this multiplier (50 nV/vHz) makes it much more useful than earlier products. The AD835 is available in an 8-lead PDIP package (N) and an 8-lead SOIC package (R) and is specified to operate over the -40°C to 85°C industrial temperature range. APPLICATIONS Very fast multiplication, division, squaring Wideband modulation and demodulation Phase detection and measurement Sinusoidal frequency doubling Video gain control and keying Voltage-controlled amplifiers and filters PRODUCT HIGHLIGHTS The AD835 is the first monolithic 250 MHz, four-quadrant voltage output multiplier. Minimal external components are required to apply the AD835 to a variety of signal processing applications. High input impedances (100 kO||2 pF) make signal source loading negligible. High output current capability allows low impedance loads to be driven. State-of-the-art noise levels achieved through careful device optimization and the use of a special low noise, band gap voltage reference. Designed to be easy to use and cost effective in applications that require the use of hybrid or board-level solutions.
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