UAF42 UA F4 2 UA F4 2 www.ti.com SBFS002B – JULY 1992 – REVISED OCTOBER 2010 UNIVERSAL ACTIVE FILTER Check for Samples: UAF42 FEATURES DESCRIPTION • The UAF42 is a universal active filter that can be configured for a wide range of low-pass, high-pass, and band-pass filters. It uses a classic state-variable analog architecture with an inverting amplifier and two integrators. The integrators include on-chip 1000pF capacitors trimmed to 0.5%. This architecture solves one of the most difficult problems of active filter design—obtaining tight tolerance, low-loss capacitors. 1 2 • • VERSATILE: – Low-Pass, High-Pass – Band-Pass, Band-Reject SIMPLE DESIGN PROCEDURE ACCURATE FREQUENCY AND Q: – Includes On-Chip 1000pF ±0.5% Capacitors APPLICATIONS • • • • • A DOS-compatible filter design program allows easy implementation of many filter types, such as Butterworth, Bessel, and Chebyshev. A fourth, uncommitted FET-input op amp (identical to the other three) can be used to form additional stages, or for special filters such as band-reject and Inverse Chebyshev. TEST EQUIPMENT COMMUNICATIONS EQUIPMENT MEDICAL INSTRUMENTATION DATA ACQUISITION SYSTEMS MONOLITHIC REPLACEMENT FOR UAF41 The classical topology of the UAF42 forms a time-continuous filter, free from the anomalies and switching noise associated with switched-capacitor filter types. The UAF42 is available in 14-pin plastic DIP and SOIC-16 surface-mount packages, specified for the –25°C to +85°C temperature range. blank blank blank blank High-Pass Out Band-Pass Out Low-Pass Out R R 1000pF (1) 1000pF (1) V+ In1 In2 R R V- In3 R = 50kW ±0.5% GND NOTE: (1) ±0.5%. 1 2 Please be aware that an important notice concerning availability, standard warranty, and use in critical applications of Texas Instruments semiconductor products and disclaimers thereto appears at the end of this data sheet. All trademarks are the property of their respective owners. PRODUCTION DATA information is current as of publication date. Products conform to specifications per the terms of the Texas Instruments standard warranty. Production processing does not necessarily include testing of all parameters. Copyright © 1992–2010, Texas Instruments Incorporated UAF42 SBFS002B – JULY 1992 – REVISED OCTOBER 2010 www.ti.com This integrated circuit can be damaged by ESD. Texas Instruments recommends that all integrated circuits be handled with appropriate precautions. Failure to observe proper handling and installation procedures can cause damage. ESD damage can range from subtle performance degradation to complete device failure. Precision integrated circuits may be more susceptible to damage because very small parametric changes could cause the device not to meet its published specifications. ABSOLUTE MAXIMUM RATINGS (1) Over operating free-air temperature range unless otherwise noted. Power Supply Voltage Input Voltage UAF42 UNIT ±18 V ±VS ±0.7 Output Short-Circuit V Continuous Operating Temperature –40 to +85 °C Storage Temperature –40 to +125 °C Junction Temperature +125 °C (1) Stresses above these ratings may cause permanent damage. Exposure to absolute maximum conditions for extended period may degrade device reliability. These are stress ratings only, and functional operation of the device at these or any other conditions beyond those specified is not supported. ORDERING INFORMATION (1) PRODUCT PACKAGE-LEAD PACKAGE DESIGNATOR PACKAGE MARKING PDIP-14 N UAF42AP SOIC-16 DW UAF42AU UAF42AP UAF42APG4 UAF42AU UAF42AUE4 (1) For the most current package and ordering information see the Package Option Addendum at the end of this document, or see the TI web site at www.ti.com. PIN CONFIGURATIONS P PACKAGE PDIP-14 (TOP VIEW) U PACKAGE SOIC-16 (TOP VIEW) Low-Pass VO 1 14 Frequency Adj2 VIN3 2 13 High-Pass VO VIN2 3 12 VIN1 Auxiliary Op Amp, +In 4 11 Ground Auxiliary Op Amp, -In 5 10 V+ Auxiliary Op Amp, VO 6 9 V- Bandpass VO 7 8 Frequency Adj1 1 16 Frequency Adj2 2 15 VIN3 3 14 High-Pass VO VIN2 4 13 VIN1 Auxiliary Op Amp, +In 5 12 Ground Auxiliary Op Amp, -In 6 11 V+ Auxiliary Op Amp, VO 7 10 V- Bandpass VO 8 9 Low-Pass VO NC (1) NC (1) Frequency Adj1 NOTE: (1) NC = no connection. For best performance connect all NC pins to ground to minimize inter-lead capacitance. 2 Submit Documentation Feedback Copyright © 1992–2010, Texas Instruments Incorporated Product Folder Link(s): UAF42 UAF42 www.ti.com SBFS002B – JULY 1992 – REVISED OCTOBER 2010 ELECTRICAL CHARACTERISTICS At TA = +25°C, and VS = ±15V, unless otherwise noted. UAF42AP, AU PARAMETER CONDITIONS MIN TYP MAX UNIT FILTER PERFORMANCE Frequency Range, fn Frequency Accuracy 0 to 100 f = 1kHz kHz 1 vs Temperature 0.01 % %/°C Maximum Q 400 — Maximum (Q • Frequency) Product 500 kHz 0.01 %/°C (fO • Q) < 10 0.025 %/°C (fO • Q) < 105 2 Q vs Temperature (fO • Q) < 104 5 Q Repeatability Offset Voltage, Low-Pass Output Resistor Accuracy % ±5 mV 0.5 1 % ±0.5 ±5 OFFSET VOLTAGE (1) Input Offset Voltage vs Temperature vs Power Supply VS = ±6V to ±18V 80 mV ±3 mV/°C 96 dB INPUT BIAS CURRENT (1) Input Bias Current VCM = 0V 10 Input Offset Current VCM = 0V 5 50 pA pA Noise Density: f = 10Hz 25 nV/√Hz Noise Density: f = 10kHz 10 nV/√Hz Voltage Noise: BW = 0.1Hz to 10Hz 2 mVPP 2 fA/√Hz NOISE Input Voltage Noise Input Bias Current Noise Noise Density: f = 10kHz INPUT VOLTAGE RANGE (1) Common-Mode Input Range Common-Mode Rejection VCM = ±10V 80 ±11.5 V 96 dB 1013|| 2 Ω || pF 13 10 || 6 Ω || pF 126 dB INPUT IMPEDANCE (1) Differential Common-Mode OPEN-LOOP GAIN (1) Open-Loop Voltage Gain VO = ±10V, RL= 2kΩ 90 FREQUENCY RESPONSE Slew Rate 10 V/ms Gain-Bandwidth Product G = +1 4 MHz Total Harmonic Distortion G = +1, f = 1kHz 0.1 % OUTPUT (1) Voltage Output RL = 2kΩ Short Circuit Current (1) ±11 ±11.5 V ±25 mA Specifications apply to uncommitted op amp, A4. The three op amps forming the filter are identical to A4 but are tested as a complete filter. Submit Documentation Feedback Copyright © 1992–2010, Texas Instruments Incorporated Product Folder Link(s): UAF42 3 UAF42 SBFS002B – JULY 1992 – REVISED OCTOBER 2010 www.ti.com ELECTRICAL CHARACTERISTICS (continued) At TA = +25°C, and VS = ±15V, unless otherwise noted. UAF42AP, AU PARAMETER CONDITIONS MIN TYP MAX UNIT POWER SUPPLY Specified Operating Voltage ±15 Operating Voltage Range ±6 Current ±6 V ±18 V ±7 mA TEMPERATURE RANGE Specified –25 +85 °C Operating –25 +85 °C Storage –40 +125 Thermal Resistance, q JA 4 100 Submit Documentation Feedback °C °C/W Copyright © 1992–2010, Texas Instruments Incorporated Product Folder Link(s): UAF42 UAF42 www.ti.com SBFS002B – JULY 1992 – REVISED OCTOBER 2010 APPLICATION INFORMATION The UAF42 is a monolithic implementation of the proven state-variable analog filter topology. This device is pin-compatible with the popular UAF41 analog filter, and it provides several improvements. The slew rate of the UAF42 has been increased to 10V/ms, versus 1.6V/ms for the UAF41. Frequency • Q product of the UAF42 has been improved, and the useful natural frequency extended by a factor of four to 100kHz. FET input op amps on the UAF42 provide very low input bias current. The monolithic construction of the UAF42 provides lower cost and improved reliability. DESIGN PROGRAM Application report SBFA002 (available for download at www.ti.com) and a computer-aided design program also available from Texas Instruments, make it easy to design and implement many kinds of active filters. The DOS-compatible program guides you through the design process and automatically calculates component values. Low-pass, high-pass, band-pass and band-reject (notch) filters can be designed. The program supports the three most commonly-used all-pole filter types: Butterworth, Chebyshev and Bessel. The less-familiar inverse Chebyshev is also supported, providing a smooth passband response with ripple in the stop band. With each data entry, the program automatically calculates and displays filter performance. This feature allows a spreadsheet-like what-if design approach. For example, a user can quickly determine, by trial and error, how many poles are required for a desired attenuation in the stopband. Gain/phase plots may be viewed for any response type. The basic building element of the most commonly-used filter types is the second-order section. This section provides a complex-conjugate pair of poles. The natural frequency, wn, and Q of the pole pair determine the characteristic response of the section. The low-pass transfer function is shown in Equation 1: VO(s) ALPwn2 = 2 VI(s) s + s wn/Q + wn2 (1) The high-pass transfer Equation 2: VHP(s) AHPs2 = 2 VI(s) s + s wn/Q + wn2 function is given by (2) The band-pass transfer function is calculated using Equation 3: VBP(s) A (w /Q) s = 2 BP n VI(s) s + s wn/Q + wn2 (3) A band-reject response is obtained by summing the low-pass and high-pass outputs, yielding the transfer function shown in Equation 4: VBR(s) A (s2 + wn2) = 2 BR VI(s) s + s wn/Q + wn2 (4) The most common filter types are formed with one or more cascaded second-order sections. Each section is designed for wn and Q according to the filter type (Butterworth, Bessel, Chebyshev, etc.) and cutoff frequency. While tabulated data can be found in virtually any filter design text, the design program eliminates this tedious procedure. Second-order sections may be noninverting (Figure 1) or inverting (Figure 2). Design equations for these two basic configurations are shown for reference. The design program solves these equations, providing complete results, including component values. Submit Documentation Feedback Copyright © 1992–2010, Texas Instruments Incorporated Product Folder Link(s): UAF42 5 UAF42 SBFS002B – JULY 1992 – REVISED OCTOBER 2010 www.ti.com HP Out BP Out RF1 12 13 LP Out RF2 8 7 1 14 R1 50kW R2 50kW 2 C1 C2 1000pF 1000pF 50kW RG VIN A1 3 A2 A3 R4 50kW RQ UAF42 11 Note: If RG = 50kW, the external gain-setting resistor can be eliminated by connecting VIN to pin 2. Pin numbers are for DIP package. SOIC-16 pinout is different. Design Equations 1. 2 wn = 1+ R2 4. R1 RF1 RF2 C1 C2 ALP = RG 1+ 2. R4 (RG + RQ) RG RQ Q= 1+ R1 R2 1 1 1 + + RG RQ R 4 1/2 R2 RF1 C1 R2 R1 RF2 C2 5. R1 AHP = R2 R1 1+ ALP = RG R2 R1 1 1 1 + + RG RQ R 4 1/2 3. QALP = QAHP R1 R2 = ABP R1 RF1 C1 R2 RF2 C2 6. ABP = R4 RG Figure 1. Noninverting Pole-Pair 6 Submit Documentation Feedback Copyright © 1992–2010, Texas Instruments Incorporated Product Folder Link(s): UAF42 UAF42 www.ti.com SBFS002B – JULY 1992 – REVISED OCTOBER 2010 HP Out BP Out RF1 RG LP Out RF2 VIN 13 12 8 7 14 1 R1 50kW R2 50kW 2 C1 C2 1000pF 1000pF 50kW A1 3 A2 A3 R4 50kW RQ 11 Note: If RQ = 50kW, the external Q-setting resistor can be eliminated by connecting pin 2 to ground. Pin numbers are for DIP package. SOIC-16 pinout is different. Design Equations 1. R2 2 wn = R1 RF1 RF2 C1 C2 R1 4. ALP = 5. AHP = 6. ABP = 1 + RG 1/2 2. Q= 1 + R4 RQ RF1 C1 1 1 1 1 + + R 1 R 2 RG R1 R2 RF2 C2 R2 R1 ALP = R2 RG 1/2 3. QALP = QAHP R1 R2 = ABP R1 RF1 C1 R2 RF2 C2 R4 1 RQ RG 1 1 1 + + R 1 R 2 RG Figure 2. Inverting Pole-Pair Submit Documentation Feedback Copyright © 1992–2010, Texas Instruments Incorporated Product Folder Link(s): UAF42 7 UAF42 SBFS002B – JULY 1992 – REVISED OCTOBER 2010 www.ti.com REVISION HISTORY NOTE: Page numbers for previous revisions may differ from page numbers in the current version. Changes from Revision A (November, 2007) to Revision B • 8 Page Corrected package marking information shown in Ordering Information table .................................................................... 2 Submit Documentation Feedback Copyright © 1992–2010, Texas Instruments Incorporated Product Folder Link(s): UAF42 PACKAGE OPTION ADDENDUM www.ti.com 20-Oct-2010 PACKAGING INFORMATION Orderable Device Status (1) Package Type Package Drawing Pins Package Qty 25 Green (RoHS & no Sb/Br) UAF42AP ACTIVE PDIP N 14 Eco Plan (2) TBD Lead/ Ball Finish MSL Peak Temp (3) (Requires Login) CU NIPDAU N / A for Pkg Type UAF42AP-1 OBSOLETE PDIP N 14 ACTIVE PDIP N 14 25 Green (RoHS & no Sb/Br) CU NIPDAU N / A for Pkg Type Request Free Samples UAF42AU ACTIVE SOIC DW 16 40 Green (RoHS & no Sb/Br) CU NIPDAU Level-3-260C-168 HR Request Free Samples UAF42AU-1 OBSOLETE SOIC DW 16 UAF42AUE4 ACTIVE SOIC DW 16 40 Green (RoHS & no Sb/Br) Call TI Call TI Request Free Samples UAF42APG4 TBD Call TI Samples Replaced by UAF42AP Call TI Samples Not Available CU NIPDAU Level-3-260C-168 HR Request Free Samples (1) The marketing status values are defined as follows: ACTIVE: Product device recommended for new designs. LIFEBUY: TI has announced that the device will be discontinued, and a lifetime-buy period is in effect. NRND: Not recommended for new designs. Device is in production to support existing customers, but TI does not recommend using this part in a new design. PREVIEW: Device has been announced but is not in production. Samples may or may not be available. OBSOLETE: TI has discontinued the production of the device. (2) Eco Plan - The planned eco-friendly classification: Pb-Free (RoHS), Pb-Free (RoHS Exempt), or Green (RoHS & no Sb/Br) - please check http://www.ti.com/productcontent for the latest availability information and additional product content details. TBD: The Pb-Free/Green conversion plan has not been defined. Pb-Free (RoHS): TI's terms "Lead-Free" or "Pb-Free" mean semiconductor products that are compatible with the current RoHS requirements for all 6 substances, including the requirement that lead not exceed 0.1% by weight in homogeneous materials. Where designed to be soldered at high temperatures, TI Pb-Free products are suitable for use in specified lead-free processes. Pb-Free (RoHS Exempt): This component has a RoHS exemption for either 1) lead-based flip-chip solder bumps used between the die and package, or 2) lead-based die adhesive used between the die and leadframe. The component is otherwise considered Pb-Free (RoHS compatible) as defined above. Green (RoHS & no Sb/Br): TI defines "Green" to mean Pb-Free (RoHS compatible), and free of Bromine (Br) and Antimony (Sb) based flame retardants (Br or Sb do not exceed 0.1% by weight in homogeneous material) (3) MSL, Peak Temp. -- The Moisture Sensitivity Level rating according to the JEDEC industry standard classifications, and peak solder temperature. Important Information and Disclaimer:The information provided on this page represents TI's knowledge and belief as of the date that it is provided. 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