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TRF4903RD-LC-FILTER Texas Instruments TRF4903 Reference Design with optional LC low-pass filter for FSK and OOK for 315, 433, 868 and 915 visit Texas Instruments
PCM3793RHBT Texas Instruments Very Low-Power Stereo CODEC with HP/Class-D Speaker Amplifier, notch filters, ALC and 3D Effects 32-VQFN visit Texas Instruments
PCM3794ARHBR Texas Instruments Very Low-Power Stereo CODEC with HP Amplifier, notch filters, ALC and 3D Effects 32-VQFN -40 to 85 visit Texas Instruments Buy
PCM3794ARHBTG4 Texas Instruments Very Low-Power Stereo CODEC with HP Amplifier, notch filters, ALC and 3D Effects 32-VQFN -40 to 85 visit Texas Instruments
PCM3793RHBTG4 Texas Instruments Very Low-Power Stereo CODEC with HP/Class-D Speaker Amplifier, notch filters, ALC and 3D Effects 32-VQFN visit Texas Instruments
PCM3794ARHBRG4 Texas Instruments Very Low-Power Stereo CODEC with HP Amplifier, notch filters, ALC and 3D Effects 32-VQFN -40 to 85 visit Texas Instruments

50 Hz notch filter

Catalog Datasheet MFG & Type PDF Document Tags

50 Hz notch filter

Abstract: 50hz notch filter reject Figure 4. Response of a 50-Hz notch filter hum from the 50-Hz line frequency of ac power in , apply to the 50-Hz version as well. Theoretical response of the 50-Hz notch filter is shown in Figure 4 , be even more necessary for a 50-Hz notch filter. The audio modulation from adjacent channels is , . Configuration of a 60-Hz notch filter VCC VCC R6 100 k R1 221 k C4 4.7 µF IN R2 221 k + R7 , Incorporated Figure 2. Response of 60-Hz notch filter VOUT (dB) VOUT (dB) VOUT (dB) matching
Texas Instruments
Original

CI-4010

Abstract: CISS 3010 thus the length of the output pulse. It is also used internally in a digital 50 Hz notch filter which , balance between elements 15% max at 1 Hz Spectral Response 7 to 14 mm determined by filter Filter , for suppression of 50 Hz interference from power lines. In an environment with 60 Hz power line , active filter can be designed, wherein the filter's characteristic and gain can be determined by external passive components. By modifying the gain of the filter stage one can adjust the sensitivity of
Creations In Silicon & Software
Original

rubycon metz

Abstract: 50 Hz notch filter , load-current transient conditions. . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 An output filter design example for a popular 12-V-input, 1.5-V, 50-A regulator is presented to illustrate analysis and
Texas Instruments
Original

50 Hz notch filter

Abstract: 1010 Hz notch filter meeting IEEE specifications - Program Weighing filter meeting ANSI/IEEE Std , amp 2 inverting input Op amp 2 output 1010 Hz Notch filter input 1010 Hz Notch filter output Op , Preliminary n . RF6651ANP I /n O A / C-Message/1010 Hz Notch/Program Weighting , up to 50 pF. Filter characteristics are given in Table II and shown in Figures 3, 4, and 5. A basic , Crystal Figure 2. Clocking Circuits F reque ncy (Hz) Figure 4. Typical 1010 Hz Notch Response
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50 Hz notch filter RF6651ANP-011 RF6651A RF5651A RF6651 ANP-012 RF6651ANP-020

RETICON

Abstract: reticon filter System specifications - 1010 Hz notch filter meeting IEEE specifications - Program Weighing filter , inverting input Op amp 2 output 1010 Hz Notch filter input 1010 Hz Notch filter output Op amp 3 inverting , weighting filter, and 1010 Hz notch filter 5 -3 0 055-0165 September 1991 ©1991 EG&G RETICON , n ¿ '^ E G z G R E T IC O N RF6651ANP C-Message/1010 Hz Notch/Program Weighting CMOS , driving a resistive load greater than 20KQ and/or a capacitive load of up to 50 pF. Filter characteristics
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RETICON reticon filter EGG RETICON RF6651ANP-012 RF5651 ANP-011

30 MHz crystal notch filter

Abstract: MC145433 NOTCH/BAND-PASS FILTERS These devices contain a 6-pole notch filter and 4-pole band-pass filter. The , Is Provided Capable of Driving 600 Q Loads â'¢ Notch Filter Output Gain Adjustable â'¢ TTL or CMOS , Respective Manufacturer MC145433*MC145434 FIGURE 2 - TYPICAL NOTCH FILTER RESPONSE CURVES FIGURE 3 - TYPICAL BAND-PASS FILTER RESPONSE CURVES fL fC fH OH -20- -40- f, FREQUENCY (Hz) -60- fr_iiâ'" / L , Respective Manufacturer mc 145433* mc145434 NOTCH FILTER ELECTRICAL CHARACTERISTICS (VDD = 15 V, VAG = VDd
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ADI-926 30 MHz crystal notch filter NOTCH FILTER DESIGN CIRCUIT DIAGRAM 145433 notch filter adjustable Q notch filter MC14S433

30 MHz crystal notch filter

Abstract: LMF90CCN internal clock frequency divider a notch filter can be built with center frequency at 50 Hz 60 Hz 100 Hz , for 50 Hz or 60 Hz line frequencies or their second and third harmonics using the LMF90 A 60 Hz notch , V changes the notch frequency to 50 Hz Changing the clockto-center-frequency ratio to 50 1 results , LMF90 4th-Order Elliptic Notch Filter Y General Description The LMF90 is a fourth-order elliptic notch (band-reject) filter based on switched-capacitor techniques No external components are
National Semiconductor
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LMF90CCN LMF90CIN J14A LMF90CCJ LMF90CCWM LMF90CIJ

50hz notch filter ic

Abstract: XR-5532 selector needs to be used in most applications. The entire 50 Hz continuous time high-pass filter as well , that when S4 is latched low, S3 is in the "don't caremode. 1010 Hz (825 Hz) notch filter is the input , -50 -50 -A -2 -1 .5 0 FILTER CHARACTERISTICS 1010Hz Notch Filter, see Figure 12 Param , of C-message weighting filter) 4. C C ITT psophometric notch filter (825Hz) 5. Program weighting , . 50 kilobit filter (low-pass filter partion only) 10. Peak-to-average ratio band-pass filter (P/AR
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XR-1020 50hz notch filter ic XR-5532 1640Hz LM79L05AC xr4194 XR102 XR-1020A 1010H 579545MH 2890H 3140H

talin 4000

Abstract: talin 5000 latched low, S3 is in the "don't care" mode. 1010 Hz (825 Hz) notch filter is the input selected, Note , psophometric notch filter (825Hz) 5. Program weighting filter 6. 3kHz flat filter 7. 15kHz flat filter 8. 1kHz band-pass filter (phase jitter measurements) 9. 50 kilobit filter (low-pass filter partion only) 10 , Operation 3.579MHz Clock Operation with On-chip Oscillator Separate Notch Filter Output Separate 1 kHz , S3OSCILLATOR S4 - X T A L IN - X T A L OUT S4 0 1 1 S3 X 0 1 FUNCTION FILTER IN PIN NOTCH OUTPUT 1K
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talin 4000 talin 5000 XR-4194 74HC148 tantalum Capacitor A8 Jh XR1020

C 100nF

Abstract: 50 Hz notch filter 10000 Frequency (Hz) Notch Pass Filter 2 Phase Response T y p i ca l r e sp o n se s f o r t h , bandpass and notch 1 ` Variable Q bandpass filter. · Micro controlled frequency 2 Mixer block. · , . Two external resistors control filter Q Factor. The Q can be varied up to 50. FEATURES AND BENEFITS , 20 nV/Hz Input impedance Max. output swing 30 Output load 10 k 50 k 1.6 V , fo describes the peak gain of the notch pass filter. This gain is defined by the value of Q Factor
Zetex Semiconductors
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ZXF36L01 ZXF36L01W24 C 100nF Variable Resistors BI 1K high Q active notch filter active bandpass filter 300 khz variable resistor 10k connection SO24W ZXF36L01-EVB

1734-EP24DC

Abstract: 1738-AENT dB 120 dB Normal Mode Rejection Ratio 100 dB ±3 db Notch filter: 13.1 Hz @ Notch = 50 Hz , Hz -60 dB, -3 dB Notch filter: 13.1 Hz @ Notch = 50 Hz 15.7 Hz @ Notch = 60 Hz 26.2 Hz @ Notch , (default) 80 ms @ Notch = 50 Hz Input Step Response, per Channel 16 ms @ Notch = 250 Hz 8 ms @ Notch = 500 Hz 70 ms @ Notch = 60 Hz (default) 80 ms @ Notch = 50 Hz 16 ms @ Notch = 250 Hz 8 ms @ Notch , /°C 30 ppm/°C Input Update Rate, per Module 20 ms @ Notch = 50 Hz 17 ms @ Notch = 60 Hz
Rockwell Automation
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1738-IE2CM12 1738-232ASCM12 1738-FPD 1738-EP24DC 1734-EP24DC 1738-AENT 1738-UM004 1738-IB8M12 Allen-Bradley 1734-ep24dc 1734-FPD 1738-SG001B-EN-P 1738-IN003 1738-IN004 1738-IN005

4th-order bandpass filter

Abstract: L2111 ) Figure 34. Notch Filter with Q = 50 and Î q = 130kHz. This Circuit Uses Side A in Mode 1d and the Side B , , notch and allpass. All filter configurations, including Butterworth, Bessel, Cauer, and Chebyshev can be , Accuracy Q < 20, Q Accuracy < ±15% fcLK -5MHz fcLK = 5M Hz, Q = 10, 50:1, Figure 15 (Mode 1) fCLK = 5M Hz, Q = 10, 100:1, Figure 15 (Mode 1) Q Temperature Coefficient VoS2,3 DC Offset fCu < 5M Hz, Q = 10 50 , 50kHz, 100:1 Notch 100kHz, 50;1 50kHz, 100:1 Noise (Note 3) fig u re 15 (Mode 1), Q = 10, R3 = 20k£2, R2
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LTC1060 L2111 4th-order bandpass filter AP 1100 R1 MU111 ML2T11 ML2111 LMF100 L2111BCP

50 Hz notch filter

Abstract: notch filter KR Electronics, Inc. KR 2355-50 Notch Filter www.krfilters.com General Description Features · 50 Hz Active notch filter · No adjustments necessary KR 2355-50 is an active notch filters , Specification Filter type Notch Notch Frequency (Fo) 50 Hz Max 3 dB Bandwidth 7 Hz , Response for 50 Hz Notch (10 dB/div) DC to 100 Hz 10 0 Response (dB) -10 -20 -30 -40 -50 -60 -70 0 10 20 30 40 50 60 70 80 90 100 Frequency (Hz
KR Electronics
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2355KR KR 2355-50 notch

50 Hz notch filter

Abstract: "notch Filter" 50 hz the 550 Hz or 1800 Hz guard tone notch filter, a TTL-compatible input pin for self-test mode, and , Delay Response (with 1800 Hz Notch Filter) Figure 8. Typical Highband Group Delay Response Frequency (Hz) Figure 7. Typical Lowband Group Delay Response (with 550 Hz Notch Filter) Table 1 , Pin 11 to V qd selects the 550 Hz notch for the lowband filter; connecting pin 11 to V s s selects the 1800 Hz notch for the lowband filter. Ordering Information Part Number RM5635ANP-011 16
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RM5635A

50Hz notch filter ic

Abstract: Frequency Ratio LTC1061A LTC1061 LTC1061A LTC1061 MAX 0.1-12k 0.1-10k Hz â'¢ 50  , to V +, the filter operates with a clock to cen­ ter frequency internally set at 50:1. When Pin 7 , notch, lowpass, and bandpass outputs (for definition of filter func­ Figure 3. Model: 2nd Order Filter Providing Notch, Bandpass, Lowpass. JJTW à tions refer to the LTC1060 datasheet). Mode 1 , 0N L=s6=B|^5j;HoBP=-^;(R5//R6)
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100BC

eeg circuit schematic

Abstract: AF100 Filter ♦10 o -10 S -20 -40 -50 40 50 60 70 80 90 FREQUENCY (Hz) TL/K/10111-46 FIGURE 26 , Units Frequency Range tcxQ , functions for a notch and allpass filter. In the transfer function for a notch function a2 becomes zero, a , Dividers v- v- Performance 0.1 dB ripple passband 0.1 dB notch width = 100 Hz 40 dB notch width = 6.25 Hz TL/K/10111-31 4th Order 1010 Hz Notch STAGE 1 FC = 1031.1 Hz Q » 26.34 FZ = 1012.2 Hz
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AF100 eeg circuit schematic AF100-1CN HY13A 101-1146 AF100-1CJ TL/K/10111-47
Abstract: dB min For Filter Notches o f 2, 5, 10, 25, 50 Hz, ±0.02 x fNOTCH For Filter Notches of 2, 6, 10 , , 25, 50 Hz, ±0.02 x fNorcH For Filter Notches of 2, 6, 10, 30, 60 Hz, ±0.02 x fNorcH dB dB twin , applies in the selected passtand. PSRR at 50 Hz will exceed 120 dB with filter notches of 2, 5, 10, 25 or 50 Hz. PSRR at 60 Hz will 4 exceed 120 dB with filter notches of 2, 6, 10, 30 or 60 Hz. This , notch >le, if the first notch of the filter is selen a new word is available at a 10 Hz rate or ? If -
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AD7713

AF100-1CN

Abstract: Handbook of Filter Synthesis Diagram COMPUTER AIDED DESIGN EXAMPLE* This design is an example of a 60 Hz notch filter. The response is , Notch Filter \ f i 1 r3 Iâ'"â'"VW-r4 R6 z -vw-=â'" 40 50 60 70 90 , Range fcXQS 50,000 10k Hz Q Range IcXQS 50,000 500 Hz/Hz fo Accuracy AF100-1C AF100-2C fc X Q S 10 , functions for a notch and allpass filter. In the transfer function for a notch function a2 becomes zero, ai , passband 0.1 dB notch width - 100 Hz 40 dB notch width = 6.25 Hz 4th Order 1010 Hz Notch STAGE 1 Fc =
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Handbook of Filter Synthesis daniels AF100-2CN high Q notch filter N16A 60 hz notch filter

max bandpass filter Center Frequency Range 500kHz

Abstract: up to 500khz center frequency bandpass filter Fâ'¬RTURâ'¬S â  All Filter Parameters Guaranteed over Temperature â  Wide Center Frequency Range (0.1 Hz to , notch functions, for gain adjustment or for cascading techniques. Higher than second order filter , 2nd Order Bandpass/Notch Filter with Q=10 »IN DC-200kHz 50k -WV- 50k -Wr + 8V â  T2 L CLOCK IN , UNITS Center Frequency Range foxQ
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LTC1059CS LTC1059 LTC1059S max bandpass filter Center Frequency Range 500kHz up to 500khz center frequency bandpass filter

LT1061

Abstract: 50hz notch filter ic Filter of Figure 5 Operating with a Single 5V Supply. 50/100/Hold (Pin 7) By tying Pin 7 to V +, the filter operates with a clock-tocenter frequency internally set at 50:1. When Pin 7 is at mid-supplies , illustrates Mode 1 providing 2nd order notch, lowpass, and bandpass outputs (for definition of filter , , highpass and notch filters. Mode 3 as well as Mode 1 is a straightforward mode to use and the filter , -| p-| Q =- R2 Figure 3. Mode 1:2nd Order Filter Providing Notch, Bandpass, Lowpass Cc H A R
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LT1061 D-85386
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