CLC1008IST5

Data Sheet Comlinear CLC1008, CLC2008 ® FEATURES n 505μA supply current n 75MHz bandwidth n Input voltage range with 5V supply: -0.3V to 3.8V n Output voltage range with 5V supply: 0.07V to 4.86V n 50V/μs slew rate n 12nV/√Hz input voltage noise n 15mA linear output current n Fully specified at 2.7V and 5V supplies n Replaces AD8031 in VS ≤ 5 applications General Description APPLICATIONS n Portable/battery-powered applications n Mobile communications, cell phones, pagers n ADC buffer n Active filters n Portable test instruments n Signal conditioning n Medical Equipment n Portable medical instrumentation Typical Performance Examples The COMLINEAR CLC1008 (single) and CLC2008 (dual) offer superior dynamic performance with 75MHz small signal bandwidth and 50V/μs slew rate. These amplifiers use only 505μA of supply current and are designed to operate from a supply range of 2.5V to 5.5V (±1.25 to ±2.75).The combination of low power, high output current drive, and rail-to-rail performance make the CLC1008 and CLC2008 well suited for battery-powered communication/ computing systems. The combination of low cost and high performance make the CLC1008 and CLC2008 suitable for high volume applications in both consumer and industrial applications such as wireless phones, scanners, and color copiers. Frequency Response vs. Temperature Frequency Response vs. VOUT Magnitude (1dB/div) Magnitude (1dB/div) Vo = 1Vpp Vo = 2Vpp Vo = 4Vpp 0.1 1 10 100 Frequency (MHz) 0.01 1 0.1 10 100 Frequency (MHz) Comlinear CLC1008, CLC2008 0.5mA, Low Cost, 75MHz Rail-to-Rail Amplifiers 0.5mA, Low Cost, 2.5 to 5.5V, 75MHz Rail-to-Rail Amplifiers Rev 2C Ordering Information Part Number Package Pb-Free RoHS Compliant Operating Temperature Range Packaging Method CLC1008IST5X SOT23-5 Yes Yes -40°C to +85°C Reel CLC2008ISO8X SOIC-8 Yes Yes -40°C to +85°C Reel Moisture sensitivity level for all parts is MSL-1. Exar Corporation 48720 Kato Road, Fremont CA 94538, USA www.exar.com Tel. +1 510 668-7000 - Fax. +1 510 668-7001 Data Sheet CLC1008 Pin Assignments CLC1008 Pin Configuration 1 -V S 2 +IN 3 +VS 5 + -IN 4 CLC2008 Pin Configuration OUT1 1 8 +VS -IN1 2 7 OUT2 +IN1 3 6 -IN2 -V S 4 5 +IN2 Pin Name Description 1 OUT Output 2 -VS Negative supply 3 +IN Positive input 4 -IN Negative input 5 +VS Positive supply Comlinear CLC1008, CLC2008 0.5mA, Low Cost, 75MHz Rail-to-Rail Amplifiers OUT Pin No. CLC2008 Pin Configuration Pin No. Pin Name 1 OUT1 Description Output, channel 1 2 -IN1 Negative input, channel 1 3 +IN1 Positive input, channel 1 4 -VS 5 +IN2 Negative supply Positive input, channel 2 6 -IN2 Negative input, channel 2 7 OUT2 Output, channel 2 8 +VS Positive supply Rev 2C ©2009-2013 Exar Corporation 2/16 Rev 2C Data Sheet Absolute Maximum Ratings The safety of the device is not guaranteed when it is operated above the “Absolute Maximum Ratings”. The device should not be operated at these “absolute” limits. Adhere to the “Recommended Operating Conditions” for proper device function. The information contained in the Electrical Characteristics tables and Typical Performance plots reflect the operating conditions noted on the tables and plots. Supply Voltage Input Voltage Range Continuous Output Current Min Max Unit 0 -Vs -0.5V -30 6 +Vs +0.5V 30 V V mA Comlinear CLC1008, CLC2008 0.5mA, Low Cost, 75MHz Rail-to-Rail Amplifiers Parameter Reliability Information Parameter Junction Temperature Storage Temperature Range Lead Temperature (Soldering, 10s) Package Thermal Resistance 5-Lead SOT23 8-Lead SOIC Min Typ -65 Max Unit 175 150 260 °C °C °C 221 100 °C/W °C/W Notes: Package thermal resistance (qJA), JDEC standard, multi-layer test boards, still air. Recommended Operating Conditions Parameter Min Operating Temperature Range Supply Voltage Range -40 2.5 Typ Max Unit +85 5.5 °C V Rev 2C ©2009-2013 Exar Corporation 3/16 Rev 2C Data Sheet Electrical Characteristics at +2.7V TA = 25°C, Vs = +2.7V, Rf = Rg =1kΩ, RL = 1kΩ to VS/2, G = 2; unless otherwise noted. Symbol Parameter Conditions Min Typ Max Units Frequency Domain Response Unity Gain -3dB Bandwidth G = +1, VOUT = 0.05Vpp , Rf = 0 65 MHz BWSS -3dB Bandwidth G = +2, VOUT < 0.2Vpp 30 MHz BWLS Large Signal Bandwidth G = +2, VOUT = 2Vpp 12 MHz GBWP Gain Bandwidth Product G = +11, VOUT = 0.2Vpp 28 MHz Time Domain Response tR, tF Rise and Fall Time VOUT = 0.2V step; (10% to 90%) 7.5 ns tS Settling Time to 0.1% VOUT = 1V step 60 ns OS Overshoot VOUT = 1V step 10 % SR Slew Rate 2V step, G = -1 40 V/µs Distortion/Noise Response HD2 2nd Harmonic Distortion VOUT = 1Vpp, 1MHz -67 dBc HD3 3rd Harmonic Distortion VOUT = 1Vpp, 1MHz -72 dBc THD Total Harmonic Distortion VOUT = 1Vpp, 1MHz 65 dB en Input Voltage Noise > 10kHz 12 nV/√Hz DC Performance VIO Input Offset Voltage 0 mV dVIO Average Drift 10 µV/°C Ib Input Bias Current 1.2 μA dIb Average Drift 3.5 nA/°C IOS Input Offset Current 30 nA PSRR Power Supply Rejection Ratio 66 dB AOL Open-Loop Gain VOUT = VS / 2 98 dB IS Supply Current per channel 470 μA (1) DC 60 Input Characteristics RIN Input Resistance CIN Input Capacitance CMIR Common Mode Input Range CMRR Common Mode Rejection Ratio Non-inverting 9 MΩ 1.5 pF -0.3 to 1.5 V 74 dB RL = 1kΩ to VS / 2 0.09 to 2.53 V RL = 10kΩ to VS / 2 0.05 to 2.6 V DC, VCM = 0V to VS - 1.5 Output Characteristics VOUT Output Voltage Swing IOUT Output Current ±15 mA ISC Short Circuit Output Current ±30 mA Notes: ©2009-2013 Exar Corporation Rev 2C 1. 100% tested at 25°C Comlinear CLC1008, CLC2008 0.5mA, Low Cost, 75MHz Rail-to-Rail Amplifiers UGBWSS 4/16 Rev 2C Data Sheet Electrical Characteristics at +5V TA = 25°C, Vs = +5V, Rf = Rg =1kΩ, RL = 1kΩ to VS/2, G = 2; unless otherwise noted. Symbol Parameter Conditions Min Typ Max Units Frequency Domain Response Unity Gain -3dB Bandwidth G = +1, VOUT = 0.05Vpp , Rf = 0 75 MHz BWSS -3dB Bandwidth G = +2, VOUT < 0.2Vpp 35 MHz BWLS Large Signal Bandwidth G = +2, VOUT = 2Vpp 15 MHz GBWP Gain Bandwidth Product G = +11, VOUT = 0.2Vpp 33 MHz Time Domain Response tR, tF Rise and Fall Time VOUT = 0.2V step; (10% to 90%) 6 ns tS Settling Time to 0.1% VOUT = 1V step 60 ns OS Overshoot VOUT = 1V step 12 % SR Slew Rate 2V step, G = -1 50 V/µs Distortion/Noise Response HD2 2nd Harmonic Distortion VOUT = 2Vpp, 1MHz -64 dBc HD3 3rd Harmonic Distortion VOUT = 2Vpp, 1MHz -62 dBc THD Total Harmonic Distortion VOUT = 2Vpp, 1MHz 60 dB en Input Voltage Noise > 10kHz 12 nV/√Hz DC Performance VIO dVIO Ib dIb Input Offset Voltage (1) -5 Average Drift -1 5 10 Input Bias Current (1) -3.5 Average Drift 1.2 µV/°C 3.5 3.5 IOS Input Offset Current (1) 30 PSRR Power Supply Rejection Ratio DC 60 66 AOL Open-Loop Gain (1) VOUT = VS / 2 65 80 IS Supply Current (1) per channel (1) 505 mV μA nA/°C 350 nA dB dB 620 μA Input Characteristics RIN Input Resistance CIN Input Capacitance CMIR Common Mode Input Range CMRR Common Mode Rejection Ratio (1) Non-inverting DC, VCM = 0V to VS - 1.5 9 MΩ 1.5 pF -0.3 to 3.8 V 65 74 dB 0.2 to 4.65 0.13 to 4.73 V 0.08 to 4.84 V Output Characteristics RL = 1kΩ to VS / 2 (1) VOUT Output Voltage Swing RL = 10kΩ to VS / 2 IOUT Output Current ±15 mA ISC Short Circuit Output Current ±30 mA Notes: ©2009-2013 Exar Corporation Rev 2C 1. 100% tested at 25°C Comlinear CLC1008, CLC2008 0.5mA, Low Cost, 75MHz Rail-to-Rail Amplifiers UGBWSS 5/16 Rev 2C Data Sheet Typical Performance Characteristics TA = 25°C, Vs = +5V, Rf = Rg =1kΩ, RL = 1kΩ to VS/2, G = 2; unless otherwise noted. Non-Inverting Frequency Response at VS = 5V Inverting Frequency Response at VS = 5V Normalized Magnitude (1dB/div) Normalized Magnitude (1dB/div) G=2 Rf = 1kΩ G = 10 Rf = 1kΩ G=5 Rf = 1kΩ 0.1 1 10 0.1 100 Frequency (MHz) G = -10 Rf = 1kΩ G = -5 Rf = 1kΩ G = -1 Rf = 1kΩ 1 10 G=1 Rf = 0 G=2 Rf = 1kΩ G = 10 Rf = 2kΩ G=5 Rf = 1kΩ 1 10 0.1 100 Frequency (MHz) G = -1 Rf = 1kΩ G = -2 Rf = 1kΩ G = -10 Rf = 1kΩ G = -5 Rf = 1kΩ 1 10 Frequency Response vs. RL RL = 1kΩ Magnitude (1dB/div) CL = 20pF Rs = 100Ω CL = 100pF Rs = 100Ω CL = 50pF Rs = 100Ω Rs CL 1kΩ RL RL = 10kΩ Rev 2C Magnitude (1dB/div) CL = 10pF Rs = 0Ω + 100 Frequency (MHz) Frequency Response vs. CL - 100 Inverting Frequency Response Normalized Magnitude (1dB/div) Normalized Magnitude (2dB/div) G = -2 Rf = 1kΩ Frequency (MHz) Non-Inverting Frequency Response 0.1 Comlinear CLC1008, CLC2008 0.5mA, Low Cost, 75MHz Rail-to-Rail Amplifiers G=1 Rf = 0 RL = 100Ω 1kΩ 0.1 1 10 0.1 100 Frequency (MHz) ©2009-2013 Exar Corporation 1 10 100 Frequency (MHz) 6/16 Rev 2C Data Sheet Typical Performance Characteristics TA = 25°C, Vs = +5V, Rf = Rg =1kΩ, RL = 1kΩ to VS/2, G = 2; unless otherwise noted. Frequency Response vs. VOUT Open Loop Gain & Phase vs. Frequency Open Loop Gain (dB) Vo = 2Vpp Vo = 4Vpp Gain 70 60 50 40 Phase 30 0 20 -45 10 -90 0 -135 -10 0.1 1 10 100 100 1k 10k Frequency (MHz) 1M 10M -180 100M 3rd Harmonic Distortion vs. VOUT -20 -20 -30 -30 -40 -40 Distortion (dB) Distortion (dBc) 100k Frequency (Hz) 2nd Harmonic Distortion vs. VOUT -50 -60 1MHz -70 500kHz -80 -50 -60 500kHz -70 1MHz 100kHz -80 100kHz -90 -90 0.5 1 1.5 2 0.5 2.5 Output Amplitude (Vpp) Vo = 1Vpp -30 3rd RL = 150Ω -40 2.0 2.5 Frequency Response vs. Temperature 3rd RL = 1kΩ -50 -60 Rev 2C 2nd RL = 1kΩ -70 1.5 Magnitude (1dB/div) -20 1.0 Output Amplitude (Vpp) 2nd & 3rd Harmonic Distortion Distortion (dBc) Open Loop Phase (deg) Magnitude (1dB/div) 80 2nd RL = 150Ω -80 -90 0 1 2 3 4 0.01 5 Frequency (MHz) ©2009-2013 Exar Corporation 0.1 1 10 100 Frequency (MHz) 7/16 Comlinear CLC1008, CLC2008 0.5mA, Low Cost, 75MHz Rail-to-Rail Amplifiers 90 Vo = 1Vpp Rev 2C Data Sheet Typical Performance Characteristics - Continued TA = 25°C, Vs = +5V, Rf = Rg =1kΩ, RL = 1kΩ to VS/2, G = 2; unless otherwise noted. CMRR PSRR 0 -10 -20 -20 PSRR (dB) CMRR (dB) -30 -40 -50 -60 -70 -30 -40 -50 -60 -80 -70 -90 -100 -80 100 1k 10k 100k 1M 10M 100 100M Frequency (Hz) Output Swing 1k 10k 100k 1M 10M 100M Frequency (Hz) Output Voltage vs. Output Current 3 Output Voltage (0.5V/div) Output Voltage (0.6V/div) 2.7 0 -3 0 50 Time (1μs/div) -50 Output Current (10mA/div) Time (10ns/div) ©2009-2013 Exar Corporation Rev 2C Output Voltage (20mV/div) Small Signal Pulse Response at VS = 5V Output Voltage (20mV/div) Small Signal Pulse Response 0 Time (10ns/div) 8/16 Comlinear CLC1008, CLC2008 0.5mA, Low Cost, 75MHz Rail-to-Rail Amplifiers 0 -10 Rev 2C Data Sheet Typical Performance Characteristics - Continued TA = 25°C, Vs = +5V, Rf = Rg =1kΩ, RL = 1kΩ to VS/2, G = 2; unless otherwise noted. Large Signal Pulse Response at VS = 5V Input Voltage Noise Voltage Noise (nV/√Hz) Output Voltage (0.5V/div) 60 50 40 30 20 10 0 0.0001 Time (10ns/div) 0.001 0.01 0.1 1 10 Frequency (MHz) Comlinear CLC1008, CLC2008 0.5mA, Low Cost, 75MHz Rail-to-Rail Amplifiers 70 Rev 2C ©2009-2013 Exar Corporation 9/16 Rev 2C Data Sheet Application Information +Vs General Description Input Output - RL 0.1uF Figures 1, 2, and 3 illustrate typical circuit configurations for non-inverting, inverting, and unity gain topologies for dual supply applications. They show the recommended bypass capacitor values and overall closed loop gain equations. Figure 4 shows the typical non-inverting gain circuit for single supply applicaitons. 6.8uF G=1 -Vs Figure 3. Unity Gain Circuit +Vs The common mode input range extends to 300mV below ground in single supply operation. Exceeding these values will not cause phase reversal. However, if the input voltage exceeds the rails by more than 0.5V, the input ESD devices will begin to conduct. 6.8μF + In + - The design uses a Darlington output stage. The output stage is short circuit protected and offers “soft” saturation protection that improves recovery time. +Vs 0.1uF + 0.1μF Out Rf Rg 6.8μF Figure 4. Single Supply Non-Inverting Gain Circuit Input 0.1μF + Output 0.1μF Rg RL Rf 6.8μF G = 1 + (Rf/Rg) -Vs For optimum response at a gain of +2, a feedback resistor of 1kΩ is recommended. Figure 5 illustrates the CLC1008 frequency response with both 1kΩ and 2kΩ feedback resistors. G=2 RL = 1kΩ +Vs Input Rg 6.8μF 0.1μF + Output 0.1μF 6.8μF -Vs Rf = 1kΩ Rev 2C R1 Rf = 2kΩ Magnitude (1dB/div) Figure 1. Typical Non-Inverting Gain Circuit RL Rf 0.1 For optimum input offset voltage set R1 = Rf || Rg 10 100 Figure 5. Frequency Response vs. Rf Figure 2. Typical Inverting Gain Circuit ©2009-2013 Exar Corporation 1 Frequency (MHz) G = - (Rf/Rg) 10/16 Comlinear CLC1008, CLC2008 0.5mA, Low Cost, 75MHz Rail-to-Rail Amplifiers The CLC1008 family are a single supply, general purpose, voltage-feedback amplifiers fabricated on a complementary bipolar process. The CLC1008 offers 75MHz unity gain bandwidth, 50V/μs slew rate, and only 505μA supply current. It features a rail-to-rail output stage and is unity gain stable. 6.8uF Rev 2C Data Sheet Power Dissipation ( ILOAD)RMS = ( VLOAD)RMS / Rloadeff TJunction = TAmbient + (ӨJA × PD) Where TAmbient is the temperature of the working environment. In order to determine PD, the power dissipated in the load needs to be subtracted from the total power delivered by the supplies. PD = Psupply - Pload PDYNAMIC = (VS+ - VLOAD)RMS × ( ILOAD)RMS Assuming the load is referenced in the middle of the power rails or Vsupply/2. The CLC1008 is short circuit protected. However, this may not guarantee that the maximum junction temperature (+150°C) is not exceeded under all conditions. Figure 6 shows the maximum safe power dissipation in the package vs. the ambient temperature for the packages available. 2 SOIC-8 Maximum Power Dissipation (W) Maximum power levels are set by the absolute maximum junction rating of 150°C. To calculate the junction temperature, the package thermal resistance value ThetaJA (ӨJA) is used along with the total die power dissipation. The dynamic power is focused primarily within the output stage driving the load. This value can be calculated as: MSOP-8 1.5 1 0.5 SOT23-6 SOT23-5 Supply power is calculated by the standard power equation. 0 -40 -20 0 20 40 60 80 Ambient Temperature (°C) Psupply = Vsupply × IRMS supply Figure 6. Maximum Power Derating Vsupply = VS+ - VSPower delivered to a purely resistive load is: Pload = ((VLOAD)RMS2)/Rloadeff The effective load resistor (Rloadeff) will need to include the effect of the feedback network. For instance, Rloadeff in Figure 3 would be calculated as: RL || (Rf + Rg) Increased phase delay at the output due to capacitive loading can cause ringing, peaking in the frequency response, and possible unstable behavior. Use a series resistance, RS, between the amplifier and the load to help improve stability and settling performance. Refer to Figure 7. Input + - PD = PQuiescent + PDynamic - PLoad Quiescent power can be derived from the specified IS values along with known supply voltage, VSupply. Load power can be calculated as above with the desired signal amplitudes using: (VLOAD)RMS = VPEAK / √2 ©2009-2013 Exar Corporation Rs Rf Rev 2C These measurements are basic and are relatively easy to perform with standard lab equipment. For design purposes however, prior knowledge of actual signal levels and load impedance is needed to determine the dissipated power. Here, PD can be found from Driving Capacitive Loads Output CL RL Rg Figure 7. Addition of RS for Driving Capacitive Loads Table 1 provides the recommended RS for various capacitive loads. The recommended RS values result in 11/16 Comlinear CLC1008, CLC2008 0.5mA, Low Cost, 75MHz Rail-to-Rail Amplifiers Power dissipation should not be a factor when operating under the stated 1k ohm load condition. However, applications with low impedance, DC coupled loads should be analyzed to ensure that maximum allowed junction temperature is not exceeded. Guidelines listed below can be used to verify that the particular application will not cause the device to operate beyond it’s intended operating range. Rev 2C Data Sheet approximately