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| CALIFORNIA MICRO DEVICES CMV7106 CMV7106 Low Power, Low Voltage Op Amp with RRIO and Shutdown, SOT23-6 Features * Tiny SOT23-6 Package * Guaranteed specs at 2.2V and 3V * Very Low Supply current, typically 300A operating, (Less than 1A idle) * Rail-to-Rail Input and Output (RRIO) * Simple shutdown mode (with logic level control) for power savings * Typical Total Harmonic Distortion of 0.01% at 3V * 1MHz Typical Gain-Bandwidth Product * Input common mode range includes V- and V+ Applications * Cellular Phones * Battery operated Systems * Electronic Toys * Test and Measurement Equipment Product Description The CMV7106 is a high performance CMOS operational amplifier available in a small SOT23-6 package. Operating with very low supply current, it is ideal for battery operated applications where power, space and weight are critical. Performance is superior to the industry standard "7101" SOT Amp, with enhancements of very low supply current, typically 300A, much higher output drive current, as well as enhanced operation at a low 2.2V supply voltage. This is much lower than our CMC7106 which operates at 2.7V supply voltage. The CMV7106 also has the added shutdown feature that greatly reduces supply current to less than 1A when idle. The shutdown mode is controlled by an extra pin, and is compatible with most logic family signal levels. It is the practical solution for 3V applications. Ideal for use in personal electronics such as cellular handsets, pagers, cordless telephones and other products with limited space and battery power. PIN DIAGRAM 6-Pin SOT23-6 Shutdown 1 - 6 Inverting Input V- 2 + 5 Non-Inverting Input Output 3 4 V+ Top View S TA N D A R D PA R T O R D E R I N G I N F O R M AT I O N Package Pins 6 Style SOT23-6 Ordering Part Number Tubes CMV7106Y/T Tape & Reel CMV7106Y/R Part Marking V106 C0680300 (c) 2000 California Micro Devices Corp. All rights reserved. 9/27/2000 215 Topaz Street, Milpitas, California 95035 Tel: (408) 263-3214 Fax: (408) 263-7846 www.calmicro.com 1 CALIFORNIA MICRO DEVICES ABSOLUTE MAXIMUM RATINGS Parameter ESD To l e r a n c e ( s e e No t e 2 ) Di f fe r e n t i a l I n p u t Vo l t a g e Vo l t a g e a t I n p u t / Ou t p u t Pi n Su p p l y Vo l t a g e ( V+ t o V-) Cur r ent at I nput Pi n Cur r ent at Out put Pi n ( s ee Not e 3) Cu r r e n t a t Powe r Su p p l y Pi n L e a d Te mp e r a t u r e ( s o l d e r i n g , 1 0 s e c . ) St o r a g e Te mp e r a t u r e Ra n g e Ju n c t i o n Te mp e r a t u r e ( s e e No t e 4 ) CMV7106 (Note 1) Rating 2,000 S u p p l y Vo l t a g e ( V + ) + 0 . 3 V, ( V -) - 0 . 3 V 7.5 5 35 35 260 -65 to +150 150 Units V V V V mA mA mA oC oC oC OPERATING CONDITIONS (unless specified otherwise) Parameter Su p p l y Vo l t a g e Ju n c t i o n Te mp e r a t u r e Ra n g e Thermal Resistance Rating 2.7 V+ 7 - 40 TJ +85 325 oC Units V oC /W 2.2V ELECTRICAL OPERATING CHARACTERISTICS Un l e s s o t h e r wi s e s p e c i f i e d , a l l l i mi t s g u a r a n t e e d fo r T J = 2 5 C, V+ = 2 . 2 V, V- = 0 V, RL > 1 M Symbol V OS T C V OS IB I OS RIN CMRR VCM PSRR Parameter I n p u t Of f s e t Vo l t a g e I n p u t Of f s e t Vo l t a g e Ave r a g e Dr i f t I nput Bi as Cur r ent Input Offset Current I nput Resi st ance Common-Mode Rejection Ratio Input Common Mode Voltage Range Power Supply Rejection Ratio Conditions V OUT = 1 . 1 V TYP 0.11 1 1 0.5 1 60 0 2.2 60 LIMIT 8 UNIT mV V/oC pA pA T dB V V dB 0.2 < VCM < 2.0V V+ = V For CMRR > 50dB V+ = 1.35V to 1.65V V- = 1.35V to -1.65V VCM = 0 RL = 600K RL = 2K RL = 10K 50 0.2 2.0 50 CIN VO Common-Mode Input Capacitance Output Swing IS IS VSDIH VSDIL SR GBW Supply Current Supply Current Amplifier On Logic Level Amplifier Off Logic Level Slew Rate Gain Bandwidth Product Amplifier "On", VSD = 2.2V Amplifier "Off", VSD = 0V Amplifier "On" Amplifier "Off" 3 2.1 0.1 2.1 0.1 2.15 0.02 0.25 1.8 0.4 2.0 0.2 0.80 1 2.0 0.8 0.6 0.7 pF V V V V V V mA A V V V/s MHz (c)2000 California Micro Devices Corp. All rights reserved. 2 215 Topaz Street, Milpitas, California 95035 Tel: (408) 263-3214 Fax: (408) 263-7846 www.calmicro.com 9/27/2000 CALIFORNIA MICRO DEVICES 3V ELECTRICAL OPERATING CHARACTERISTICS Un l e s s o t h e r wi s e s p e c i f i e d , a l l l i mi t s g u a r a n t e e d fo r T J = 2 5 C, V+ = 3 V, V- = 0 V, RL > 1 M Symbol V OS T C V OS IB I OS RIN CMRR VC M PSRR Parameter I n p u t Of f s e t Vo l t a g e I n p u t Of f s e t Vo l t a g e Ave r a g e Dr i f t I nput Bi as Cur r ent Input Offset Current I nput Resi st ance Common-Mode Rejection Ratio Input Common Mode Voltage Range Power Supply Rejection Ratio Conditions V OUT = 1 . 5 V TYP 0.11 1 1 0.5 1 0.0 3.3 80 LIMIT 4 CMV7106 0 < VCM < 3V V+ = V For CMRR > 50dB V+ = 1.5V to 1.8V V- = -1.5V to -1.8V VC M = 0 RL = 600K RL = 2K RL = 10K 55 0.0 3.0 68 UNIT mV V/oC pA pA T dB V V dB CIN VO Common-Mode Input Capacitance Output Swing IS IS VS D I H VS D I L SR GBW ISC T.H.D. Supply Current Supply Current Amplifier On Logic Level Amplifier Off Logic Level Slew Rate Gain Bandwidth Product Output Short Circuit Current Total Harmonic Distortion Amplifier "On", VS D = 3V Amplifier "Off", VS D = 0V Amplifier "On" Amplifier "Off" 3 2.9 0.1 2.9 0.1 2.99 0.01 0.3 2.6 0.4 2.6 0.4 2.7 0.3 0.81 1 2.0 1.0 0.9 1.0 Sourcing VO = 0V (see Note 5) Sinking VO = 3V (see Note 5) F = 10KHz, AV = -2 RL = 10K, VO = 2.0VPP 16 11 0.01 pF V V V V V V mA A V V V/s MHz mA mA % Note 1. Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. Operating conditions indicate ratings for which the device is intended to be functional, but specific performance is not guaranteed. For guaranteed specifications and the test conditions, see the Electrical Operating Characteristics. Note 2. Human Body Model, 1.5KW in series with 100pF. Note 3. Applies to both single-supply and split-supply operation. Continuous short ckt operation at elevated ambient temperatures can result in exceeding the maximum allowed junction temperature of 150C. Note 4 . The maximum power dissipation is a function of TJ (MAX), JA and TA. The maximum allowable power dissipation at any ambient temperature is PD = (TJ (MAX) - TA)/ JA . All numbers apply for packages soldered directly to a PC board. Note 5. See Application Section. (c) 2000 California Micro Devices Corp. All rights reserved. 9/27/2000 215 Topaz Street, Milpitas, California 95035 Tel: (408) 263-3214 Fax: (408) 263-7846 www.calmicro.com 3 CALIFORNIA MICRO DEVICES CMV7106 (c)2000 California Micro Devices Corp. All rights reserved. 4 215 Topaz Street, Milpitas, California 95035 Tel: (408) 263-3214 Fax: (408) 263-7846 www.calmicro.com 9/27/2000 CALIFORNIA MICRO DEVICES CMV7106 (c) 2000 California Micro Devices Corp. All rights reserved. 9/27/2000 215 Topaz Street, Milpitas, California 95035 Tel: (408) 263-3214 Fax: (408) 263-7846 www.calmicro.com 5 CALIFORNIA MICRO DEVICES CMV7106 (c)2000 California Micro Devices Corp. All rights reserved. 6 215 Topaz Street, Milpitas, California 95035 Tel: (408) 263-3214 Fax: (408) 263-7846 www.calmicro.com 9/27/2000 CALIFORNIA MICRO DEVICES Applications Benefits 1.0 Packaging The most obvious benefit to using the CMV7106 is the SOT package, which has been widely accepted as the surface mounting of choice. The SOT23 footprint not only saves space on the PCB but also provides a low profile for applications such as the PCMCIA, type III cards which require heights less than 0.056 Inches (1.43mm). 1.2 Signal Integrity As systems have become smaller and higher functionality is demanded of them, spacing between traces has diminished as well. This can result in increased sensitivity to noise, pick-up, and cross talk. Due to its small size, the CMV7106 may be placed in close proximity to the signal source minimizing the above problems, and since it is a single device, routing traces to a multiple amplifier such as dual or quad avoids running long traces reducing cross talk. The Rail to Rail Inputs and Output allow the amplifier to operate on a low supply voltages while maintaining signal tracking integrity and large output voltage swings (relative to the supply rail). 1.3 Low Distortion Even when operated from a 2.2 volt supply, the CMV7106 still exhibits very low distortion thanks to its large open loop gain and unique circuit design making it suitable for application in many audio systems. 1.4 Low Supply Current and High Output Current The supply current required by CMV7106 of 300A coupled with its ability to sink and source large currents of 50mA make it unique in its class. Clearly, the low supply current provides longer operation in battery operated systems while the high output current assures that circuits with capacitive loads will "starter" faster. The high output current also eliminates the need for a buffer, such as an emitter follower, in the loop with the amplifier for applications demanding large load currents. 1.5 Shutdown Operation Compared to a typical SOT Amp, an additional pin, Shutdown is included to control the "idle" mode of the amplifier. Shutdown allows the amplifier to be placed in a very low power consumption mode, reducing the power consumption mode (< 3 W at 3 Volt supply) by reducing the supply current to less than 1A. To use the Shutdown feature, a logic level is connected to the Shutdown pin (pin1), which is configured as a digital input (Logic "1" turns the amplifier on). This makes the input directly compatible with common logic families. If the Shutdown feature is not desired, the pin should be shorted to V+ (pin 4). CMV7106 1.6 Turn On and Turn Off (Shutdown) Characteristics The turn off delay, toff, is defined as the time between the Shutdown signal crossing the disable threshold (typically V+ - 1.0V) and the time for the amplifier's output to come within 10% of the its final value. It is largely governed by a propagation delay within the CMV7106 of a few hundred nanoseconds followed by an exponential decay determined by the load resistance in parallel with the load capacitance. See Typical Performance Characteristics. The turn on delay, ton, is defined as the time between the Shutdown signal crossing the threshold and the time that the output reaches to within 10% of its final See Typical Performance Characteristics. Applications Information 2.0 Input Common Mode and Output Voltage Considerations The CMV7106 will accommodate input common mode voltages equal to both rails, and input signals that exceed the rails will not cause phase inversion of the output. However, ESD diode clamps are provided at the inputs that can be damaged if currents in excess of 5mA when the input voltage exceeds the rail by 0.3 volt. Damage can be precluded by inserting a limiting resistor, Rs, in series with the input whose recommend value may be calculated from: RS > VIN - (V+ -0.3V) 5mA (1) For V+ equal to 2.2 volts, and Vin equal to a maximum of 5 volts, Rs should be chosen for a value of 500 or greater. The Shutdown pin also provides ESD clamp diodes that will be damaged if the signal should be limited to < 5mA by inserting the appropriate resistor between the input signal or logic gate and the Shutdown input. 2.1 Output Current and Power Dissipation The CMV7106 is capable of sinking or sourcing output currents in excess of 50mA and voltages nearly equal to the supply voltage. The device does not have internal short circuit limiting, but it is capable of withstanding an indefinite short circuit without sustaining damage. Clearly the maximum power dissipation will occur under these conditions: Pdiss = (V+ -Vout) * Iout V+ = Supply Voltage Vout = The Output Voltage (2) Where: Pdiss = Power dissipated by the chip (c) 2000 California Micro Devices Corp. All rights reserved. 9/27/2000 215 Topaz Street, Milpitas, California 95035 Tel: (408) 263-3214 Fax: (408) 263-7846 www.calmicro.com 7 CALIFORNIA MICRO DEVICES Furthermore, TJ = TA + JA Where TA = The Ambient Temperature JA = The thermal impedance of the package For a short circuit on the output with V+ equal to 3 volts and an output current of 50mA, the power dissipation per equation (2) would be 150mW. Assuming a worst case ambient of 85C, the junction temperature would be 134C well below the maximum junction rating of 150C. 2.2 Input Considerations The CMV7106 exhibits an input impedance which is typically in excess of 1 Tera making it an excellent choice for applications requiring high source impedance such as buffering photo diodes, high impedance transducers, or long time constant integraters. A high source impedance usually dictates a large feedback resistor, Rf, but the parallel combination of Rf and Rs in parallel with the input capacitance of the amplifier (typically 3 pF) creates a parasitic pole which can erode the phase margin of the amplifier. The recommended fix is to bypass Rf with a small capacitor thus canceling the pole at the inverting input. The formula for calculating invariably results in a value larger than optimum, (3) 2.3 Capacitive Load Considerations CMV7106 The CMV7106 is capable of driving capacitive loads in excess of 100pF without oscillation. However, significant peaking will result. The easiest way to minimize this problem is to use an isolation resistor as shown in Figure 2. V+ 6 1 5 - + 4 3 VOUT R1 1K CL 100pF GND CMV7106 A1 2 GND VIN GND Figure 2. Isolating a Capacitive Load 2.4 Power Supply Decoupling The CMV7106 is not prone to oscillation without the use of power supply decoupling capacitors, however to minimize hum and noise pick-up, it is recommended that the rails be bypassed with 0.01F capacitors. 1 1 > 2 Rs 2 Rf (4) Since the parasitic capacitance is bound to change between the breadboard phase and the production printed circuit board, we recommend the use of a "gimmick" which is made by twisting two lengths (about a foot) of insulated wire (such as AWG 24) that are bared at both ends. The gimmick is soldered across Rf . With the circuit in operation, Cf is adjusted by clipping short lengths until the compensation is nominal. Then simply measure the capacitance of the gimmick on an impedance bridge. V+ Cf R1 RS CIN VIN GND GND GND 6 1 5 4 3 VOUT Typical Application 3.0 Low Power and Supply Voltage Single Rail Oscillator Operational amplifiers have been used for years to generate frequency stable oscillators finding applications in toys and hand held games. But the circuit using the CMV7106 shown in Figure 3 provides unique benefits in a child's sneaker where Light Emitting Diodes are caused to flash any time the child's foot touches the ground. The Shutdown feature of the CMV7106 is used in conjunction with normally closed switch SW1 and pullup resistor, R5, which disables A1 until the child's foot comes in contact with the ground opening the switch enabling the amplifier. After a turn-on transient of a few hundred milliseconds, the circuit will oscillate until SW1 closes again. For (R1 + R2) R1 = 0.473, the period, T, of the oscillator is given by: T = 2 Rf C1 (5) Where: Rf is the feedback resistor, C1 is the capacitor - + CMV7106 A1 2 Figure 1. Input Capacitance Compensation (c)2000 California Micro Devices Corp. All rights reserved. 8 215 Topaz Street, Milpitas, California 95035 Tel: (408) 263-3214 Fax: (408) 263-7846 www.calmicro.com 9/27/2000 CALIFORNIA MICRO DEVICES The period is easily adjusted by varying Rf. R3 ensures that the circuit will start on a single rail by forcing A1's output to the positive rail. R4's value is not critical but should be a factor of 10 greater than the parallel combination of R1 and R2. The CMV7106 can source output currents in excess of 50mA sufficient to drive several LED lamps while only drawing 300A of supply current maximizing battery life. CMV7106 R1 = 0.473 R1 + R2 V+ R3 1M R1 RS 100M 6 1 2 5 - + 4 3 VOUT CMV7106 A1 2 - 1 R2 11K R4 51K 2 C1 GND GND GND R1 5.1K GND Figure 3. Single Rail Oscillator (c) 2000 California Micro Devices Corp. All rights reserved. 9/27/2000 215 Topaz Street, Milpitas, California 95035 Tel: (408) 263-3214 Fax: (408) 263-7846 www.calmicro.com 9 |
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