LTC1562
LTC1562
PRODUCTIONVery Low Noise, Low Distortion Active RC Quad Universal Filter
- Part Models
- 9
- 1ku List Price
- Starting From $12.66
Viewing:
Part Details
- Continuous Time—No Clock
- Four 2nd Order Filter Sections, 10kHz to 150kHz Center Frequency
- ±0.5% Typical Center Frequency Accuracy
- ±0.3% Typical Center Frequency Accuracy (A Grade)
- Wide Variety of Response Shapes
- Lowpass, Bandpass and Highpass Responses
- 103dB Typical S/N, ±5V Supply (Q = 1)
- 97dB Typical S/N, Single 5V Supply (Q = 1)
- 96dB Typical S/(N + THD) at ±5V Supply, 20kHz Input
- Rail-to-Rail Input and Output Voltages
- DC Accurate to 3mV (Typ)
- “Zero-Power” Shutdown Mode
- Single or Dual Supply, 5V to 10V Total
- Resistor-Programmable fO, Q, Gain
The LTC1562 is a low noise, low distortion continuous-time filter with rail-to-rail inputs and outputs, optimized for a center frequency (fO) of 10kHz to 150kHz. Unlike most monolithic filters, no clock is needed. Four independent 2nd order filter blocks can be cascaded in any combination, such as one 8th order or two 4th order filters. Each block’s response is programmed with three external resistors for center frequency, Q and gain, using simple design formulas. Each 2nd order block provides lowpass and bandpass outputs. Highpass response is available if an external capacitor replaces one of the resistors. Allpass, notch and elliptic responses can also be realized.
The LTC1562 is designed for applications where dynamic range is important. For example, by cascading 2nd order sections in pairs, the user can configure the IC as a dual 4th order Butterworth lowpass filter with 94dB signal-to-noise ratio from a single 5V power supply. Low level signals can exploit the built-in gain capability of the LTC1562. Varying the gain of a section can achieve a dynamic range as high as 118dB with a ±5V supply.
Other cutoff frequency ranges can be provided upon request. Please contact LTC Marketing.
Applications
- High Resolution Systems (14 Bits to 18 Bits)
- Antialiasing/Reconstruction Filters
- Data Communications, Equalizers
- Dual or I-and-Q Channels (Two Matched 4th Order Filters in One Package)
- Linear Phase Filtering
- Replacing LC Filter Modules
Documentation
Data Sheet 1
Reliability Data 1
User Guide 1
Application Note 1
Design Note 1
Technical Articles 6
ADI has always placed the highest emphasis on delivering products that meet the maximum levels of quality and reliability. We achieve this by incorporating quality and reliability checks in every scope of product and process design, and in the manufacturing process as well. "Zero defects" for shipped products is always our goal. View our quality and reliability program and certifications for more information.
Part Model | Pin/Package Drawing | Documentation | CAD Symbols, Footprints, and 3D Models |
---|---|---|---|
LTC1562ACG#PBF | 20-Lead SSOP | ||
LTC1562ACG#TRPBF | 20-Lead SSOP | ||
LTC1562AIG#PBF | 20-Lead SSOP | ||
LTC1562AIG#TRPBF | 20-Lead SSOP | ||
LTC1562CG#PBF | 20-Lead SSOP | ||
LTC1562CG#TRPBF | 20-Lead SSOP | ||
LTC1562CN#PBF | 16-Lead PDIP (Narrow 0.30 Inch) | ||
LTC1562IG#PBF | 20-Lead SSOP | ||
LTC1562IG#TRPBF | 20-Lead SSOP |
Part Models | Product Lifecycle | PCN |
---|---|---|
Aug 6, 2022 - 22_0171 Laser Top Mark Conversion for SSOP Packages Assembled in PNG |
||
LTC1562ACG#PBF | PRODUCTION | |
LTC1562ACG#TRPBF | PRODUCTION | |
LTC1562AIG#PBF | PRODUCTION | |
LTC1562AIG#TRPBF | PRODUCTION | |
LTC1562CG#PBF | PRODUCTION | |
LTC1562CG#TRPBF | PRODUCTION | |
LTC1562IG#PBF | PRODUCTION | |
LTC1562IG#TRPBF | PRODUCTION | |
Oct 11, 2022 - 22_0241 Epoxy Change from Henkel 8290 to 8290A for PDIP Package |
||
LTC1562CN#PBF | PRODUCTION | |
Aug 6, 2022 - 22_0172 Laser Top Mark Conversion for PDIP Packages Assembled in ADPG [PNG] |
||
LTC1562CN#PBF | PRODUCTION |
This is the most up-to-date revision of the Data Sheet.
Tools & Simulations
LTspice
Models for the following parts are available in LTspice:
- LTC1562
- LTC1562-2
- LTC1562A
LTspice® is a powerful, fast and free simulation software, schematic capture and waveform viewer with enhancements and models for improving the simulation of analog circuits.