CLC1200 Instrumentation Amplifier
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1 CLC2 Instrumentation Amplifier General Description The CLC2 is a low power, general purpose instrumentation amplifier with a gain range of to,. The CLC2 is offered in 8-lead SOIC or DIP packages and requires only one external gain setting resistor making it smaller and easier to implement than discrete, 3-amp designs. While consuming only 2.2mA of supply current, the CLC2 offers a low 6.6nV/Hz input voltage noise and.2μvpp noise from.hz to Hz. The CLC2 offers a low input offset voltage of ±25μV that only varies.μv/ C over it s operating temperature range of -4 C to 85 C. The CLC2 also features 5ppm maximum nonlinearity. These features make it well suited for use in data acquisition systems. FEATURES ±2.3V to ±8V supply voltage range Gain range of to, Gain set with one external resistor ±25μV maximum input offset voltage.μv/ C input offset drift 7kHz bandwidth at G =.2V/μs slew rate 9dB minimum CMRR at G = 2.2mA maximum supply current 6.6nV/ Hz input voltage noise 7nV/ Hz output voltage noise.2μv pp input noise (.Hz to Hz) DIP-8 or Pb-free SOIC-8 APPLICATIONS Bridge amplifier Weigh scales Thermocouple amplifier ECG and medical instrumentation MRI (Magnetic Resonance Imaging) Patient monitors Transducer interface Data acquisition systems Strain gauge amplifier Industrial process controls Ordering Information - back page Typical Application Competitive Plot 3 Input 2 V S 2 Competitor A 8 3 Input R G 7 CLC Reference V S Load V OUT Normalized Gain (db) G = V S = ±5V V OUT =.2V pp R L = 2kΩ CLC2 To Power Supply Ground Frequency (MHz) Thermocouple Amplifier Exar Corporation / 5 exar.com/clc2
2 CLC2 Absolute Maximum Ratings Stresses beyond the limits listed below may cause permanent damage to the device. Exposure to any Absolute Maximum Rating condition for extended periods may affect device reliability and lifetime. Supply Voltage...±8V Input Voltage Range... ±V S V Differential Input Voltage (G = to )... 25V Differential Input Voltage (G > )....5 (R G 8) V Load Resistance (min)... Ω Operating Conditions Supply Voltage Range...±2.3V to ±8V (4.6V to 36V) Gain Range... to, Operating Temperature Range...-4 C to 85 C Junction Temperature...5 C Storage Temperature Range C to 5 C Lead Temperature (Soldering, s)...26 C Package Thermal Resistance θ JA (DIP-8)... C/W θ JA (SOIC-8)...5 C/W Package thermal resistance (θ JA ), JEDEC standard, multi-layer test boards, still air. ESD Protection SOIC-8 (HBM)....5kV ESD Rating for HBM (Human Body Model) Exar Corporation 2 / 5 exar.com/clc2
3 CLC2 Electrical Characteristics T A = 25 C, V S = ±5V, R L = 2kΩ to GND; unless otherwise noted. Gain = (49.4k/R G ); Total RTI Error = V OSI (V OSO /G) Symbol Parameter Conditions Min Typ Max Units Gain Voltage Offset Gain Range, Gain Error () Gain Nonlinearity Gain vs. Temperature G =, V OUT = ±V -.. % G =, V OUT = ±V % G =, V OUT = ±V % G =,, V OUT = ±V % G = -, V OUT = -V to V, R L = kω 5 ppm G = -, V OUT = -V to V, R L = 2kΩ 95 ppm G = < ppm/ C G > < ppm/ C Reference Gain Error () V S = ±6.5V % V OSI Input Offset Voltage V S = ±4.5V to ±6.5V μv Average Temperature Coefficient V S = ±4.5V to ±6.5V. μv/ C V OSO Output Offset Voltage V S = ±4.5V to ±6.5V, G = 2 5 μv PSR Input Current Average Temperature Coefficient V S = ±4.5V to ±6.5V 2.5 μv/ C Offset Referred to the Input vs. Supply G =, V S = ±2.3V to ±8V 8 db G =, V S = ±2.3V to ±8V 95 2 db G =, V S = ±2.3V to ±8V 4 db G =, V S = ±2.3V to ±8V 4 db I B Input Bias Current V S = ±6.5V na Average Temperature Coefficient V S = ±6.5V 3 pa/ C I OS Input Offset Current V S = ±6.5V - na Input Input Impedance Differential, 2 GΩ, pf Common-Mode, 2 GΩ, pf IVR Input Voltage Range (2) V S = ±4.5V, G = -V S.9 V S -.2 V V S = ±6.5V, G = -V S.9 V S -.4 V CMRR Output V OUT Common-Mode Rejection Ratio Output Swing G =, V S = ±6.5V 7 9 db G =, V S = ±6.5V 9 db G =, V S = ±6.5V 8 3 db G =, V S = ±6.5V 8 3 db V S = ±2.3V to ±4.5V -V S. V S -.2 V V S = ±8V, G = -V S.4 V S -.2 V I SC Short Circuit Current ±2 ma Dynamic Performance BW -3dB Small Signal -3dB Bandwidth G = 7 khz G = 4 khz G = khz G = 2 khz SR Slew Rate G =, V S = ±5V.6.2 V/μs t S Settling Time to.% 5V step, G = to 3 μs 5V step, G = μs Exar Corporation 3 / 5 exar.com/clc2
4 CLC2 Electrical Characteristics continued T A = 25 C, V S = ±5V, R L = 2kΩ to GND; unless otherwise noted. Gain = (49.4k/R G ); Total RTI Error = V OSI (V OSO /G) Symbol Parameter Conditions Min Typ Max Units Noise e ni Input Voltage Noise khz, G =, V S = ±5V nv/ Hz e no Output Voltage Noise khz, G =, V S = ±5V 7 nv/ Hz e npp Peak-to-Peak Noise (RTI) G =,.Hz to Hz 5 μv pp G =,.Hz to Hz, V S = ±5V.8 μv pp G =,.Hz to Hz, V S = ±5V.2.4 μv pp i n Current Noise f = khz fa/ Hz i npp Peak-to-Peak Current Noise.Hz to Hz pa pp Reference Input R IN Input Resistance 2 kω I IN Input Current V S = ±6.5V 5 6 μa Voltage Range -V S.6 V S -.6 V Gain to Output ±. Power Supply V S Operating Range ±2.3 ±8 V I S Supply Current V S = ±6.5V ma Notes:. Nominal reference voltage gain is. 2. Input voltage range = CMV (G V DIFF )/ Exar Corporation 4 / 5 exar.com/clc2
5 CLC2 CLC2 Pin Configurations SOIC-8, DIP-8 CLC2 Pin Assignments SOIC-8, DIP-8 Pin No. Pin Name Description R G -IN R G V s, 8 R G R G sets gain 2 -IN Negative input 3 IN Positive input IN 3 6 OUT 4 -V S Negative supply 5 REF Output is referred to the REF pin potential -V s 4 5 REF 6 OUT Output 7 V S Positive supply Exar Corporation 5 / 5 exar.com/clc2
6 CLC2 Typical Performance Characteristics T A = 25 C, V S = ±5V, R L = 2kΩ to GND; unless otherwise noted. Input Offset Distribution (typical) Input Bias Current Distribution (typical) Input Offset Current Distribution (typical) Exar Corporation 6 / 5 exar.com/clc2
7 CLC2 Typical Performance Characteristics T A = 25 C, V S = ±5V, R L = 2kΩ to GND; unless otherwise noted. Gain vs. Frequency Gain (db) 7 6 G = 5 4 G = 3 2 G = G = Frequency (MHz) Output Voltage Swing vs. V S V S -.5 G = R L =2kΩ Output Voltage Swing (V) R L =kω R L =kω - R L =2kΩ Referred to Supply Voltages -V S Supply Voltage (/- V) Input Voltage Range vs. V S Output Voltage Swing vs. R L V S -- 2 G G = = Referred to Supply Voltages 3 Input Voltage Swing (V) - Output Voltage Swing (V pp ) 2 -V S Supply Voltage (/- V) Load Resistance (kω) Large Signal Pulse Response (G = ) Large Signal Settling Time (G = ) 7.5 G =, R L =2K..9 G =, 5V Step Output Settling (%) Exar Corporation 7 / 5 exar.com/clc2
8 CLC2 Typical Performance Characteristics T A = 25 C, V S = ±5V, R L = 2kΩ to GND; unless otherwise noted. Large Signal Pulse Response (G = ) Large Signal Settling Time (G = ) 7.5 G =, R L =2K..9 G =, 5V Step Output Settling (%) Large Signal Pulse Response (G = ) Large Signal Settling Time (G = ) 7.5 G =, R L =2K..9 G =, 5V Step Output Settling (%) Large Signal Pulse Response (G = ) Large Signal Settling Time (G = ) 7.5 G =, R L =2K..9 G =, 5V Step Output Settling (%) Exar Corporation 8 / 5 exar.com/clc2
9 CLC2 Typical Performance Characteristics T A = 25 C, V S = ±5V, R L = 2kΩ to GND; unless otherwise noted. Small Signal Pulse Response (G = ) Small Signal Pulse Response (G = ).. G =, R L =2K, C L =pf G =, R L =2K, C L =pf Small Signal Pulse Response (G = ) Small Signal Pulse Response (G = ).. G =, R L =2K, C L =pf G =, R L =2K, C L =pf Exar Corporation 9 / 5 exar.com/clc2
10 CLC2 Typical Competitive Comparison Plots T A = 25 C, V S = ±5V, R L = 2kΩ, Exar evaluation board; unless otherwise noted. Frequency Response (G = ) Frequency Response (G = ) Normalized Gain (db) G = V S = ±5V V OUT =.2V pp R L = 2kΩ Competitor A CLC2 Normalized Gain (db) G = V S = ±5V V OUT =.2V pp R L = 2kΩ CLC2 Competitor A Frequency (MHz) Frequency (MHz) Frequency Response (G = ) Frequency Response (G = ) Normalized Gain (db) G = V S = ±5V Competitor A CLC2 Normalized Gain (db) Competitor A G =, V S = ±5V CLC2-6 V OUT =.2V pp R L = 2kΩ -6 V OUT =.2V pp R L = 2kΩ Frequency (MHz) Frequency (MHz) Small Signal Pulse Response (G = ) Small Signal Pulse Response (G = ) Competitor A. Competitor A Output Amplitude (V) CLC2 Output Amplitude (V) CLC V OUT =.V pp C L = pf. V OUT =.V pp C L = pf Exar Corporation / 5 exar.com/clc2
11 CLC2 Application Information Basic Information % R G (Ω) Caclulated Gain.% R G (Ω) Calculated Gain The CLC2 is a monolithic instrumentation amplifier based on the classic three op amp solution, refer to the Functional Block Diagram shown in Figure. The CLC2 produces a single-ended output referred to the REF pin potential. 49.9k k k k k k k k 9.93.k 5.4.k IN ,3. R G OUT Table : Recommended R G Values Follow these guidelines for improved performance: IN REF To maintain gain accuracy, use.% to % resistors To minimize gain error, avoid high parasitic resistance in series with R G Figure : Functional Block Diagram To minimize gain drift, use low TC resistors (<ppm/ C) The internal resistors are trimmed which allows the gain to be accurately adjusted with one external resistor R G. 49.4k 49.4k G = ; R G = R G G - R G also determines the transconductance of the preamp stage. As R G is reduced for larger gains, the transconductance increases to that of the input transistors. Producing the following advantages: Open-loop gain increases as the gain is increased, reducing gain related errors Gain-bandwidth increases as the gain is increased, optimizing frequency response Reduced input voltage noise which is determined by the collector current and base resistance of the input devices Common Mode Rejection The CLC2 offers high CMRR. To achieve optimal CMRR performance: Connect the reference terminal (pin 5) to a low impedance source Minimize capacitive and resistive differences between the inputs In many applications, shielded cables are used to minimize noise. Properly drive the shield for best CMRR performance over frequency. Figures and 2 show active data guards that are configured to improve AC common-mode rejections. the capacitances of input cable shields are bootstrapped to minimize the capacitance mismatch between the inputs. Input V S Gain Selection The impedance between pins and 8, R G, sets the gain of the CLC2. Table shows the required standard table values of R G for various calculated gains. For G =, R G =. _ CLCxxx - Input R G / 2 R G / 2 _ CLC2 -V S REF Output Figure 2: Common-mode Shield Driver Exar Corporation / 5 exar.com/clc2
12 CLC2 - Input _ V S Small size and low cost make the CLC2 especially attractive for voltage output pressure transducers. Since it delivers low noise and drift, it will also serve applications such as diagnostic noninvasive blood pressure measurement. R G CLC2 Output - -V S - Input -V S Figure 3: Differential Shield Driver Pressure Measurement Applications The CLC2 is especially suitable for higher resistance pressure sensors powered at lower voltages where small size and low power become more significant. Figure 3 shows a 3kΩ pressure transducer bridge powered from 5V. In such a circuit, the bridge consumes only.7ma. Adding the CLC2 and a buffered voltage divider allows the signal to be conditioned for only 3.8mA of total supply current. REF Medical ECG The CLC2 is perfect for ECG monitors because of its low current noise. A typical application is shown in Figure 4. The CLC2 s low power, low supply voltage requirements, and space-saving 8-lead SOIC package offerings make it an excellent choice for battery-powered data recorders. Furthermore, the low bias currents and low current noise, coupled with the low voltage noise of the CLC2, improve the dynamic range for better performance. The value of capacitor C is chosen to maintain stability of the right leg drive loop. Proper safeguards, such as isolation, must be added to this circuit to protect the patient from possible harm. 5V 5V 3k 3k 5V 2k 3k 3k G = 499 CLC2 _ REF k 5V Ref IN.7mA.3mA.mA 2k CLCxxx _ AGND Digital Data Output Figure 4: Pressure Monitoring Circuits Operating on a Single 5V Supply Patient/Circuit Protection/Isolation 3V 3 7 C R4 MΩ R kω R3 24.9kΩ R2 24.9kΩ R G 8.25kΩ 8 2 CLC2 G = Hz High-Pass Filter G = 43 Output Amplifier Output V/mV CLC3 3V Figure 5: Typical Circuit for ECG Monitor Applications Exar Corporation 2 / 5 exar.com/clc2
13 CLC2 Grounding The output voltage of the CLC2 is developed with respect to the potential on the reference terminal (pin 8). Simply tie the REF pin to the appropriate local ground to resolve many grounding problems. To isolate low level analog signals from a noisy digital environment, many data acquisition components have separate analog and digital ground pins. Use separate ground lines (analog and digital) to minimize current flow from sensitive areas to system ground. These ground returns must be tied together at some point, usually best at the ADC. Layout Considerations General layout and supply bypassing play major roles in high frequency performance. Exar has evaluation boards to use as a guide for high frequency layout and as an aid in device testing and characterization. Follow the steps below as a basis for high frequency layout: Include 6.8µF and.µf ceramic capacitors for power supply decoupling Place the 6.8µF capacitor within.75 inches of the power pin Place the.µf capacitor within. inches of the power pin Remove the ground plane under and around the part, especially near the input and output pins to reduce parasitic capacitance Minimize all trace lengths to reduce series inductances Refer to the evaluation board layouts below for more information. Figure 6. CEB24 Schematic Evaluation Board Information The following evaluation boards are available to aid in the testing and layout of these devices: Figure 7. CEB24 Top View Evaluation Board # CEB24 Products CLC2 in SOIC-8 Evaluation Board Schematics Evaluation board schematics and layouts are shown in Figures 6-8. These evaluation boards are built for dualsupply operation. Follow these steps to use the board in a single-supply application:. Short -V S to ground. 2. Use C3 and C4, if the -V S pin of the amplifier is not directly connected to the ground plane. Figure 8. CEB24 Bottom View Exar Corporation 3 / 5 exar.com/clc2
14 CLC2 Mechanical Dimensions SOIC-8 Package DIP-8 Package Exar Corporation 4 / 5 exar.com/clc2
15 CLC2 Ordering Information Part Number Package Green Operating Temperature Range Packaging CLC2ISO8X SOIC-8 Yes -4 C to 85 C Tape & Reel CLC2ISO8MTR SOIC-8 Yes -4 C to 85 C Mini Tape & Reel CLC2ISO8EVB Evaluation Board N/A N/A N/A CLC2IDP8 DIP-8 Yes -4 C to 85 C Rail Moisture sensitivity level for all parts is MSL-. Mini Tape and Reel contains 25 pieces. Revision History Revision Date Description 2E (ECN 53-2) March 25 Reformat into Exar data sheet template. Updated PODs and thermal resistance numbers. Updated ordering information table to include MTR and EVB part numbers. Updated evaluation board top and bottom views to Rev b. Added schematic used for evaluation boards. For Further Assistance: CustomerSupport@exar.com or HPATechSupport@exar.com Exar Technical Documentation: Exar Corporation Headquarters and Sales Offices 4876 Kato Road Tel.: (5) Fremont, CA USA Fax: (5) NOTICE EXAR Corporation reserves the right to make changes to the products contained in this publication in order to improve design, performance or reliability. EXAR Corporation assumes no responsibility for the use of any circuits described herein, conveys no license under any patent or other right, and makes no representation that the circuits are free of patent infringement. Charts and schedules contained here in are only for illustration purposes and may vary depending upon a user s specific application. While the information in this publication has been carefully checked; no responsibility, however, is assumed for inaccuracies. EXAR Corporation does not recommend the use of any of its products in life support applications where the failure or malfunction of the product can reasonably be expected to cause failure of the life support system or to significantly affect its safety or effectiveness. Products are not authorized for use in such applications unless EXAR Corporation receives, in writing, assurances to its satisfaction that: (a) the risk of injury or damage has been minimized; (b) the user assumes all such risks; (c) potential liability of EXAR Corporation is adequately protected under the circumstances. Reproduction, in part or whole, without the prior written consent of EXAR Corporation is prohibited Exar Corporation 5 / 5 exar.com/clc2
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