References
... Choose K and R: Iref*R=VEB – VEB/rt(K), so R = (11/rt(K))*VEB/Iref. Choose K so that a) R size is not too large and b) R+1/gmn/rt(K) is quite bit larger than 1/gmn. ...
... Choose K and R: Iref*R=VEB – VEB/rt(K), so R = (11/rt(K))*VEB/Iref. Choose K so that a) R size is not too large and b) R+1/gmn/rt(K) is quite bit larger than 1/gmn. ...
High Resistance Grounding Installation
... your specific unit. Also, resistor tap information, alarm contact detail and power connection requirements should be outlined in some detail. Feel free to contact the factory for Powerohm Resistors if you need assistance. Standard equipment operation is as follows: Normal Operation: Under normal ope ...
... your specific unit. Also, resistor tap information, alarm contact detail and power connection requirements should be outlined in some detail. Feel free to contact the factory for Powerohm Resistors if you need assistance. Standard equipment operation is as follows: Normal Operation: Under normal ope ...
Fourth Year Engineering Project Final Report Noah Moser i Project
... must be greater than VB and VBE must be greater than the threshold voltage. In the case of the transistors used at 5.2 GHz, VBE is approximately 0.9 V. The use of a signal reference to bias the transistors ensures a dependable supply current independent of temperature. The current mirror, as shown i ...
... must be greater than VB and VBE must be greater than the threshold voltage. In the case of the transistors used at 5.2 GHz, VBE is approximately 0.9 V. The use of a signal reference to bias the transistors ensures a dependable supply current independent of temperature. The current mirror, as shown i ...
Activity P49: Transformer
... A transformer can be used to increase or decrease AC voltages. An AC voltage is applied to the primary coil of a transformer, which is surrounded by the secondary coil but is not electrically connected to it. The primary coil produces a changing magnetic flux through the secondary coil, which will i ...
... A transformer can be used to increase or decrease AC voltages. An AC voltage is applied to the primary coil of a transformer, which is surrounded by the secondary coil but is not electrically connected to it. The primary coil produces a changing magnetic flux through the secondary coil, which will i ...
AD8045
... infringements of patents or other rights of third parties that may result from its use. Specifications subject to change without notice. No license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks are the property of the ...
... infringements of patents or other rights of third parties that may result from its use. Specifications subject to change without notice. No license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks are the property of the ...
MAX8751 Fixed-Frequency, Full-Bridge CCFL Inverter Controller General Description
... The MAX8751 can drive large power MOSFETs typically used in applications where one power stage drives four or more CCFL lamps in parallel. An internal 5.35V linear regulator powers the MOSFET drivers and most of the internal circuitry. The controller operates over a wide input-voltage range (6V to 2 ...
... The MAX8751 can drive large power MOSFETs typically used in applications where one power stage drives four or more CCFL lamps in parallel. An internal 5.35V linear regulator powers the MOSFET drivers and most of the internal circuitry. The controller operates over a wide input-voltage range (6V to 2 ...
Understanding electronic components
... UNI-DS 3 [PSoC] The Atmel AVR is a family of RISC microcontrollers from Atmel. The AVR is a Harvard architecture CPU. It has 32 8-bit registers. Some instructions only operate on a subset of these registers. The concatenated register file, input/output file and data memory make up a unified address ...
... UNI-DS 3 [PSoC] The Atmel AVR is a family of RISC microcontrollers from Atmel. The AVR is a Harvard architecture CPU. It has 32 8-bit registers. Some instructions only operate on a subset of these registers. The concatenated register file, input/output file and data memory make up a unified address ...
CB-71XX USER MANUAL
... SELECTION OF COMMON TERMINAL: The ammeter circuit of Models CB-7110, CB7120 and CB-7130 utilizes two current transformers to measure both the very low and high currents available from these units. For the ammeter to correctly read the output current of the test set, the proper common terminal must b ...
... SELECTION OF COMMON TERMINAL: The ammeter circuit of Models CB-7110, CB7120 and CB-7130 utilizes two current transformers to measure both the very low and high currents available from these units. For the ammeter to correctly read the output current of the test set, the proper common terminal must b ...
LTC6800 - Rail-to-Rail, Input and Output
... Whenever the differential input VIN changes, CH must be charged up to the new input voltage via CS. This results in an input charging current during each input sampling period. Eventually, CH and CS will reach VIN and, ideally, the input current would go to zero for DC inputs. In reality, there are ...
... Whenever the differential input VIN changes, CH must be charged up to the new input voltage via CS. This results in an input charging current during each input sampling period. Eventually, CH and CS will reach VIN and, ideally, the input current would go to zero for DC inputs. In reality, there are ...
AD7836 数据手册DataSheet 下载
... Reference Inputs for DAC A. These reference voltages are referred to AGND. Reference Inputs for DAC B. These reference voltages are referred to AGND. Reference Inputs for DAC C. These reference voltages are referred to AGND. Reference Inputs for DAC D. These reference voltages are referred to AGND. ...
... Reference Inputs for DAC A. These reference voltages are referred to AGND. Reference Inputs for DAC B. These reference voltages are referred to AGND. Reference Inputs for DAC C. These reference voltages are referred to AGND. Reference Inputs for DAC D. These reference voltages are referred to AGND. ...
MAX1645/MAX1645A Advanced Chemistry-Independent, Level 2 Battery Chargers with Input Current Limiting General Description
... The MAX1645 are high-efficiency battery chargers capable of charging batteries of any chemistry type. It uses the Intel System Management Bus (SMBus) to control voltage and current charge outputs. When charging lithium-ion (Li+) batteries, the MAX1645 automatically transition from regulating curren ...
... The MAX1645 are high-efficiency battery chargers capable of charging batteries of any chemistry type. It uses the Intel System Management Bus (SMBus) to control voltage and current charge outputs. When charging lithium-ion (Li+) batteries, the MAX1645 automatically transition from regulating curren ...
PTH04T240W,
... This control pin has an internal pull-up. Do not place an external pull-up on this pin. If it is left open-circuit, the module operates when input power is applied. A small, low-leakage (<100 nA) MOSFET is recommended for control. The open-circuit voltage is less than 3.5Vdc. For additional informat ...
... This control pin has an internal pull-up. Do not place an external pull-up on this pin. If it is left open-circuit, the module operates when input power is applied. A small, low-leakage (<100 nA) MOSFET is recommended for control. The open-circuit voltage is less than 3.5Vdc. For additional informat ...
Transistors - Talking Electronics
... A transistor raises the strength of a weak signal and thus acts as an amplifier. Fig. 8.7 shows the basic circuit of a transistor amplifier. The weak signal is applied between emitter-base junction and output is taken across the load RC connected in the collector circuit. In order to achieve faithfu ...
... A transistor raises the strength of a weak signal and thus acts as an amplifier. Fig. 8.7 shows the basic circuit of a transistor amplifier. The weak signal is applied between emitter-base junction and output is taken across the load RC connected in the collector circuit. In order to achieve faithfu ...
STLC3075
... DC characteristics in HI-Z mode. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 DC characteristics in active mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 TIP/RING typical transition from direct to reverse po ...
... DC characteristics in HI-Z mode. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 DC characteristics in active mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 TIP/RING typical transition from direct to reverse po ...
Self-Bias Configuration
... FET’s (Field – Effect Transistors) are much like BJT’s (Bipolar Junction Transistors). FET is usually called a unipolar transistor being that the current carrier is wholly of a single type either electron or holes only. While the bipolar transistor is a dual current carrier system having both electr ...
... FET’s (Field – Effect Transistors) are much like BJT’s (Bipolar Junction Transistors). FET is usually called a unipolar transistor being that the current carrier is wholly of a single type either electron or holes only. While the bipolar transistor is a dual current carrier system having both electr ...
diodes.ies - crazyengg
... The diode has three distinct regions of operation: 1. Forward bias – note that when the diode is “on,” the voltage drop is approximately 0.6 V to 0.7 V for a silicon diode. 2. Reverse bias – in this region i = -IS , where IS is called the saturation current. For “small signal” diodes, IS is often o ...
... The diode has three distinct regions of operation: 1. Forward bias – note that when the diode is “on,” the voltage drop is approximately 0.6 V to 0.7 V for a silicon diode. 2. Reverse bias – in this region i = -IS , where IS is called the saturation current. For “small signal” diodes, IS is often o ...
FDDS10H04A_F085A Smart High Side Switch F DDS10H04A_F085A Sm
... RI=2, RL=1, td=400ms, IN=Low o rHigh Load current (Short-circuit current) ...
... RI=2, RL=1, td=400ms, IN=Low o rHigh Load current (Short-circuit current) ...
17 relate the effects of thermal energy to kinetic molecular theory
... 21-3.Which of the above lines represents the resistor with the Greatest resistance? 21-4.Which of the above lines represents the resistor with the Least resistance? 21-5.Which of the lines represents the resistor with the greatest Conductance? 21-6 Which of the lines in the graph would be hotter to ...
... 21-3.Which of the above lines represents the resistor with the Greatest resistance? 21-4.Which of the above lines represents the resistor with the Least resistance? 21-5.Which of the lines represents the resistor with the greatest Conductance? 21-6 Which of the lines in the graph would be hotter to ...
