
Low-Noise, High-Speed,16-Bit Accurate, CMOS
... damage to the amplifier. Many specifications apply from –40°C to +125°C. Parameters that vary significantly with operating voltages or temperature are shown in the Typical Characteristics. ...
... damage to the amplifier. Many specifications apply from –40°C to +125°C. Parameters that vary significantly with operating voltages or temperature are shown in the Typical Characteristics. ...
SCM9B-3000/4000 Series
... The modules are easy to use. You do not need engineering experience in complicated data acquisition hardware. This modular approach to data acquisition is extremely flexible, easy to use and cost effective. The modules can be mixed and matched to fit the application. They can be placed remote from t ...
... The modules are easy to use. You do not need engineering experience in complicated data acquisition hardware. This modular approach to data acquisition is extremely flexible, easy to use and cost effective. The modules can be mixed and matched to fit the application. They can be placed remote from t ...
UCN5804 - Allegro Microsystems
... bipolar outputs, the UCN5804B and UCN5804LB BiMOS II translator/ drivers provide complete control and drive for a four-phase unipolar steppermotor with continuous output current ratings to 1.25 A per phase (1.5 A ...
... bipolar outputs, the UCN5804B and UCN5804LB BiMOS II translator/ drivers provide complete control and drive for a four-phase unipolar steppermotor with continuous output current ratings to 1.25 A per phase (1.5 A ...
Electrical Resistance
... These are used to show how the current through a component varies with the applied voltage. The circuit opposite could be used to obtain a current-voltage graph of a resistor. The variable resistor is used to apply a range of voltages across the resistor. ...
... These are used to show how the current through a component varies with the applied voltage. The circuit opposite could be used to obtain a current-voltage graph of a resistor. The variable resistor is used to apply a range of voltages across the resistor. ...
Bip Transistor 100V, 4A NPN TP/TP-FA
... customer' s products or equipment. To verify symptoms and states that cannot be evaluated in an independent device, the customer should always evaluate and test devices mounted in the customer' s products or equipment. SANYO Semiconductor Co.,Ltd. assumes no responsibility for equipment failures tha ...
... customer' s products or equipment. To verify symptoms and states that cannot be evaluated in an independent device, the customer should always evaluate and test devices mounted in the customer' s products or equipment. SANYO Semiconductor Co.,Ltd. assumes no responsibility for equipment failures tha ...
UC2855A 数据资料 dataSheet 下载
... is buffered and brought out to the RVS pin. A current proportional to the output voltage is generated by connecting a resistor between this pin and GND. This current forms the second input to the current synthesizer. SS: Soft-start VSS is discharged for VVCC low conditions. When enabled, SS charges ...
... is buffered and brought out to the RVS pin. A current proportional to the output voltage is generated by connecting a resistor between this pin and GND. This current forms the second input to the current synthesizer. SS: Soft-start VSS is discharged for VVCC low conditions. When enabled, SS charges ...
- Opus
... and diode. A longer reset-time of Inn-associated energy is also obtained with 12C. At high-current the recovery current would not fully reset during the on-time. Complete reset of the residual Irm and Io would occur in the voltage clamp at transistor turn-off. These disadvantages render 12C unsuitab ...
... and diode. A longer reset-time of Inn-associated energy is also obtained with 12C. At high-current the recovery current would not fully reset during the on-time. Complete reset of the residual Irm and Io would occur in the voltage clamp at transistor turn-off. These disadvantages render 12C unsuitab ...
Current Electricity Problem Packet
... 23. A battery that supplies 12 Amperes of current is connected in series to six resistors. The potential differences for each resistor are: V1 = 36 V, V2 = 48 V, V3 = 24 V, V4 = 12 V, V5 = 60 V, and V6 = 72 V. a. Draw a diagram of the circuit using the circuit element symbols. b. What is the total v ...
... 23. A battery that supplies 12 Amperes of current is connected in series to six resistors. The potential differences for each resistor are: V1 = 36 V, V2 = 48 V, V3 = 24 V, V4 = 12 V, V5 = 60 V, and V6 = 72 V. a. Draw a diagram of the circuit using the circuit element symbols. b. What is the total v ...
WG3-6-7-11-05-003_Trigger_current_%28ECL%29
... (1) The surge protector, mounted as intended to be used, shall be placed in a chamber maintained at the specified test temperature. The air flow shall be controlled to provide a free-convection heat-transfer environment with the protector shielded from direct flow of forced air. The surge protector ...
... (1) The surge protector, mounted as intended to be used, shall be placed in a chamber maintained at the specified test temperature. The air flow shall be controlled to provide a free-convection heat-transfer environment with the protector shielded from direct flow of forced air. The surge protector ...
AD8631
... offset of 0.8 mV from a 1.8 V supply. The low supply current and the low supply voltage makes these parts ideal for battery-powered applications. The 3 V/µs slew rate makes the AD8631/AD8632 a good match for driving ASIC inputs, such as voice codecs. The AD8631/AD8632 is specified over the extended ...
... offset of 0.8 mV from a 1.8 V supply. The low supply current and the low supply voltage makes these parts ideal for battery-powered applications. The 3 V/µs slew rate makes the AD8631/AD8632 a good match for driving ASIC inputs, such as voice codecs. The AD8631/AD8632 is specified over the extended ...
Chapter 11 - Inductors
... • When a length of wire is formed onto a coil, it becomes a basic inductor • Magnetic lines of force around each loop in the winding of the coil effectively add to the lines of force around the adjoining loops, forming a strong electromagnetic field within and around the coil • The unit of inductanc ...
... • When a length of wire is formed onto a coil, it becomes a basic inductor • Magnetic lines of force around each loop in the winding of the coil effectively add to the lines of force around the adjoining loops, forming a strong electromagnetic field within and around the coil • The unit of inductanc ...
Chapter 11
... • During the first 5 time constants, the current is building up exponentially, and the induced coil voltage is decreasing • The resistor voltage increases with current • After 5 time constants, all of the source voltage is dropped across the resistor and none across the coil ...
... • During the first 5 time constants, the current is building up exponentially, and the induced coil voltage is decreasing • The resistor voltage increases with current • After 5 time constants, all of the source voltage is dropped across the resistor and none across the coil ...
A Novel High Speed Differential Ultra Low-Voltage
... paper are less than for conventional Flip-Flops. The layout area is dependent on the implementation of the floating capacitors. The capacitance values for the floating capacitors are typically less than 1f F , and hence can be implemented using MOS transistor parasitic capacitances and metal-metal. ...
... paper are less than for conventional Flip-Flops. The layout area is dependent on the implementation of the floating capacitors. The capacitance values for the floating capacitors are typically less than 1f F , and hence can be implemented using MOS transistor parasitic capacitances and metal-metal. ...
Beginning Breadboarding series student booklet – 2014
... b) Once you disconnect the power to the circuit, the LED will ___stay on____________ for a while because of the stored electrical energy in the capacitor. c) The greater the value of the capacitor, the _____longer_____ the LED will stay on. d) When current flows through the circuit, what is happenin ...
... b) Once you disconnect the power to the circuit, the LED will ___stay on____________ for a while because of the stored electrical energy in the capacitor. c) The greater the value of the capacitor, the _____longer_____ the LED will stay on. d) When current flows through the circuit, what is happenin ...
Ohm`s Law - STLCC.edu :: Users` Server
... Three unknown resistances are measured by taking a series of voltage and current readings for each resistor. Since Ohm's law states V IR , a graph of V versus I for each resistor will have a slope R. Therefore each resistance can be determined from the graph. The resistance of the three resistors co ...
... Three unknown resistances are measured by taking a series of voltage and current readings for each resistor. Since Ohm's law states V IR , a graph of V versus I for each resistor will have a slope R. Therefore each resistance can be determined from the graph. The resistance of the three resistors co ...
SLA7075M, SLA7076M, SLA7077M, and SLA7078M Motor Driver IC
... Motor Driver IC Family The SLA7075M, SLA7076M, SLA7077M, and SLA7078M motor driver ICs feature 2-phase stepper unipolar drivers. The clock-in type input interface allows simplified control logic, and options for built-in sense current detection and load circuit short or open protection (patent pendi ...
... Motor Driver IC Family The SLA7075M, SLA7076M, SLA7077M, and SLA7078M motor driver ICs feature 2-phase stepper unipolar drivers. The clock-in type input interface allows simplified control logic, and options for built-in sense current detection and load circuit short or open protection (patent pendi ...
Lecture notes - inst.eecs.berkeley.edu
... Nodes: connection points of two or more circuit elements (together with “wires”) Branches: one two-terminal element and the nodes at either end Idealizations: Wires are “perfect conductors” – voltage is the same at any point on the wire (add capacitor circuit element to model this phenomenon) Is thi ...
... Nodes: connection points of two or more circuit elements (together with “wires”) Branches: one two-terminal element and the nodes at either end Idealizations: Wires are “perfect conductors” – voltage is the same at any point on the wire (add capacitor circuit element to model this phenomenon) Is thi ...
LR9641 DESCRIPTION FEATURES
... protects the IC itself and its downstream system against input voltage surges. With this OVP function, the IC can stand off input voltage as high as 42V, making it an ideal solution for industrial applications such as smart meters as well as automotive applications. In automotive systems, power come ...
... protects the IC itself and its downstream system against input voltage surges. With this OVP function, the IC can stand off input voltage as high as 42V, making it an ideal solution for industrial applications such as smart meters as well as automotive applications. In automotive systems, power come ...