Showing posts with label Amp. Show all posts
Showing posts with label Amp. Show all posts
Tuesday, October 28, 2014
Voltage Feedback Op Amp
VOLTAGE FEEDBACK OPERATIONAL AMPLIFIER
Device Description:
Voltage feedback operational amplifiers usually manufactured for industrial use have ultra-low power requirements, with a typical quiescent current value of approximately 250 micro amperes. The typical current drawn in powered-down mode for such an amplifier is 0.5 micro amperes. They are suitable for operation at any bandwidth below 56 MHz. The manufacturing process is called a SiGe complimentary bipolar process. It is an advanced method used at the industrial level.
Ultra-low power-op amps have rail-to-rail output along with negative rail input. They are specially designed to operate under an EMF ranging from 2.5 – 5.5 Volts. There are two options: the single or dual supply operational amplifier. The aforementioned voltage supply is for single mode op amps whereas for a dual mode operational amplifier the power supply ranges from -1.25 to -2.25 Volts and 1.25 to 2.75 Volts (in dual supply configuration). These operational amplifiers are leading the industry due to their high power/performance ratio. They consume a mere 250 micro amperes of current on each channel, under a unity gain of 56 MHz.
A voltage feedback operational amplifier is well-suited for portable battery applications in which low power consumption is desired along with good performance. It consumes little power, yet offers high frequency performance. Such operational amplifiers serve as the device with high frequency performance in many battery-powered applications by lowering current consumption. This is achievable on account of a power saving mode, in which its current consumption can be lowered to 1.5 micro amperes. A voltage feedback operational amplifier consists of an integrated gain setting resistor in its both single and dual supply variants. These gain setting resistors are bound to a printed circuit board with the smallest possible size across a wide range of attainable gain values - they can be replaced with a potentiometer for controllable resistance. The design of a voltage feedback operational amplifier impacts the range of attenuation values. These amplifiers are designed to work at industrial-standard temperatures ranging from -40 to 250 degrees centigrade.
Applications of Voltage Feedback Operational Amplifiers
A voltage feedback operational amplifier has many industrial applications, including the following:
• Audio ADC input buffers
• Portable systems
• High density systems
• Low power systems
• Ultrasonic flow systems
• ADC Drivers
• Low power SAR
• Low power signal conditioning systems.
Device Description:
Voltage feedback operational amplifiers usually manufactured for industrial use have ultra-low power requirements, with a typical quiescent current value of approximately 250 micro amperes. The typical current drawn in powered-down mode for such an amplifier is 0.5 micro amperes. They are suitable for operation at any bandwidth below 56 MHz. The manufacturing process is called a SiGe complimentary bipolar process. It is an advanced method used at the industrial level.
Ultra-low power-op amps have rail-to-rail output along with negative rail input. They are specially designed to operate under an EMF ranging from 2.5 – 5.5 Volts. There are two options: the single or dual supply operational amplifier. The aforementioned voltage supply is for single mode op amps whereas for a dual mode operational amplifier the power supply ranges from -1.25 to -2.25 Volts and 1.25 to 2.75 Volts (in dual supply configuration). These operational amplifiers are leading the industry due to their high power/performance ratio. They consume a mere 250 micro amperes of current on each channel, under a unity gain of 56 MHz.
A voltage feedback operational amplifier is well-suited for portable battery applications in which low power consumption is desired along with good performance. It consumes little power, yet offers high frequency performance. Such operational amplifiers serve as the device with high frequency performance in many battery-powered applications by lowering current consumption. This is achievable on account of a power saving mode, in which its current consumption can be lowered to 1.5 micro amperes. A voltage feedback operational amplifier consists of an integrated gain setting resistor in its both single and dual supply variants. These gain setting resistors are bound to a printed circuit board with the smallest possible size across a wide range of attainable gain values - they can be replaced with a potentiometer for controllable resistance. The design of a voltage feedback operational amplifier impacts the range of attenuation values. These amplifiers are designed to work at industrial-standard temperatures ranging from -40 to 250 degrees centigrade.
Applications of Voltage Feedback Operational Amplifiers
A voltage feedback operational amplifier has many industrial applications, including the following:
• Audio ADC input buffers
• Portable systems
• High density systems
• Low power systems
• Ultrasonic flow systems
• ADC Drivers
• Low power SAR
• Low power signal conditioning systems.
Sunday, October 5, 2014
10 Amp 13 8 Volt Power Supply
10 Amp 13.8 Volt Power Supply Circuit
10 Amp 13.8 Volt Power Supply Parts List :
R1 1.5K ¼ Watt Resistor (optional, tie pins 6 & 5 of IC1 together if not used.)
R2,R3 0.1 Ohm 10 Watt Resistor (Tech America 900-1002)
R4 270 Ohm ¼ Watt Resistor
R5 680 Ohm ¼ Watt Resistor
R6,R7 0.15 Ohm 10 Watt Resistor (Tech America 900-1006)
R8 2.7K ¼ Watt Resistor
R9 1K Trimmer Potentiometer (RS271-280)
R10 3.3K ¼ Watt Resistor
C1,C2,C3,C4 4700 Microfarad Electrolytic Capacitor 35 Volt (observe polarity)
C5 100 Picofarad Ceramic Disk Capacitor
C6 1000 Microfarad Electrolytic Capacitor 25 Volt (observe polarity)
IC1 LM723 (RS276-1740) Voltage Regulator IC. Socket is recommended.
Q1 TIP3055T (RS276-2020) NPN Transistor (TO-220 Heat Sink Required)
Q2,Q3 2N3055 (RS276-2041) NPN Transistor (Large TO-3 Heat Sink Required)
S1 Any SPST Toggle Switch
F1 3 Amp Fast Blow Fuse
D1-D4 Full Wave Bridge Rectifier (RS276-1185)
T1 18 Volt, 10 Amp Transformer Hammond #165S18 (Digi-Key HM538-ND)
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