Experiment 2K: Kirchhoff`s Rulest
... Then disconnect the ammeter and reconnect gap a-b with a jumper. g) To measure I2, remove the e-f jumper and connect the ammeter across the e-f gap, observing the same procedure as in (e) and (f) to find the magnitude and direction of the current. Then disconnect the ammeter and reconnect gap e-f wi ...
... Then disconnect the ammeter and reconnect gap a-b with a jumper. g) To measure I2, remove the e-f jumper and connect the ammeter across the e-f gap, observing the same procedure as in (e) and (f) to find the magnitude and direction of the current. Then disconnect the ammeter and reconnect gap e-f wi ...
Type ME-7 Voltage Transformer
... Voltage Transformer ME-7 Voltage Transformers are available for indoor metering applications on low voltage 60Hz circuits (700 V or less). The ME-7 has been approved by Consumer and Corporate Affairs Canada (C.C.A.C.) for revenue billing (approval number T-309). It is a group 1 transformer complying ...
... Voltage Transformer ME-7 Voltage Transformers are available for indoor metering applications on low voltage 60Hz circuits (700 V or less). The ME-7 has been approved by Consumer and Corporate Affairs Canada (C.C.A.C.) for revenue billing (approval number T-309). It is a group 1 transformer complying ...
Neptune Branch Unit - APL
... (5) Open Breaker 1, Bulb 1 is off (of course). Except for Bulb 1, no other things change their state in the circuit, showing that once BU2 is energized, the dummy load of BU 1 (Bulb 1) can be drop off. It is no use any more. (6) Close Breaker 3, Bulb 3 and LED 5 will be on. (7) Open Breaker 2, ...
... (5) Open Breaker 1, Bulb 1 is off (of course). Except for Bulb 1, no other things change their state in the circuit, showing that once BU2 is energized, the dummy load of BU 1 (Bulb 1) can be drop off. It is no use any more. (6) Close Breaker 3, Bulb 3 and LED 5 will be on. (7) Open Breaker 2, ...
tremolux-tremolo.pdf
... My problem is that the Tremolux is using a A voltage of 365V compared to the well knowed high 410V in the Deluxe Reverb. How could I change the Tremolux oscilator to make it work on 410V? Any other thoughts about using this design? Thanks! /Henrik ...
... My problem is that the Tremolux is using a A voltage of 365V compared to the well knowed high 410V in the Deluxe Reverb. How could I change the Tremolux oscilator to make it work on 410V? Any other thoughts about using this design? Thanks! /Henrik ...
Catalog
... Internal potential winding taps and an external ratio correction transformer are provided on all ratings so that each regulator may be applied to more than one system voltage. ...
... Internal potential winding taps and an external ratio correction transformer are provided on all ratings so that each regulator may be applied to more than one system voltage. ...
Interfacing Type K Thermocouples to the Chickadee XL
... provided by the physical attachment of the TC to a metallic object of interest. If the TC is isolated from the object being measured, or if the object is non-conductive or not grounded, a ground connection can be made with the grounding jumper shown. If a low resistance ground connection causes grou ...
... provided by the physical attachment of the TC to a metallic object of interest. If the TC is isolated from the object being measured, or if the object is non-conductive or not grounded, a ground connection can be made with the grounding jumper shown. If a low resistance ground connection causes grou ...
... 4.4* EXTERNAL SOURCE RESISTANCE. The model used to represent a voltage source has a constant voltage applied to a series resistor (rs). We create that pattern in real circuits by connecting the signal generator to the circuit through a real resistor Rs. The amplitude of the signal applied to Rs is a ...
circuit
... Low resistivity materials called conductors; most metals High resistivity materials called insulators; nonmetals In between are semiconductors: Si, Ge, B, Se; can act as conductors or insulators under certain circumstances ...
... Low resistivity materials called conductors; most metals High resistivity materials called insulators; nonmetals In between are semiconductors: Si, Ge, B, Se; can act as conductors or insulators under certain circumstances ...
CMP04 数据手册DataSheet 下载
... CONTROLLING DIMENSIONS ARE IN MILLIMETERS; INCH DIMENSIONS (IN PARENTHESES) ARE ROUNDED-OFF MILLIMETER EQUIVALENTS FOR REFERENCE ONLY AND ARE NOT APPROPRIATE FOR USE IN DESIGN ...
... CONTROLLING DIMENSIONS ARE IN MILLIMETERS; INCH DIMENSIONS (IN PARENTHESES) ARE ROUNDED-OFF MILLIMETER EQUIVALENTS FOR REFERENCE ONLY AND ARE NOT APPROPRIATE FOR USE IN DESIGN ...
AUDIO POWER AMPLIFIERS Introduction
... - CLASS A operation: 360o conduction angle - CLASS AB operation: 180o conduction angle - CLASS B operation: less than 360o, more than 180o conduction angle - CLASS C operation: less than 180o conduction angle (fixed drive) The output signal as result of a sinusoidal input signal for each of the four ...
... - CLASS A operation: 360o conduction angle - CLASS AB operation: 180o conduction angle - CLASS B operation: less than 360o, more than 180o conduction angle - CLASS C operation: less than 180o conduction angle (fixed drive) The output signal as result of a sinusoidal input signal for each of the four ...
Lab 3 Series and Parallel Circuits
... side of the circuit board. Please note that this is simply a convention that makes it easier for others (such as your lab instructor) to verify your setup. 3. Turn on the power supply and set the current straight up. 4. Set the power supply voltage to approximately 6 to 8 volts. The actual voltage d ...
... side of the circuit board. Please note that this is simply a convention that makes it easier for others (such as your lab instructor) to verify your setup. 3. Turn on the power supply and set the current straight up. 4. Set the power supply voltage to approximately 6 to 8 volts. The actual voltage d ...
FSL136MRT Green-Mode Fairchild Power Switch (FPS™) FSL136MRT — Green-Mode Fair
... 3. Feedback Control: This device employs CurrentMode control, as shown in Figure 18. An opto-coupler (such as the FOD817) and shunt regulator (such as the KA431) are typically used to implement the feedback network. Comparing the feedback voltage with the voltage across the RSENSE resistor makes it ...
... 3. Feedback Control: This device employs CurrentMode control, as shown in Figure 18. An opto-coupler (such as the FOD817) and shunt regulator (such as the KA431) are typically used to implement the feedback network. Comparing the feedback voltage with the voltage across the RSENSE resistor makes it ...
Information on ABACUS IEEE Software Tool
... Grouped and sorted CellView list for further analysis, e.g. in ...
... Grouped and sorted CellView list for further analysis, e.g. in ...
Application Note 181 3-Terminal Regulator is Adjustable
... voltage while R1 provides the 5 mA programming current. The 2 capacitors on the adjustment and output terminals are optional for improved performance. Bypassing the adjustment terminal to ground improves ripple rejection. This bypass capacitor prevents ripple from being amplified as the output volta ...
... voltage while R1 provides the 5 mA programming current. The 2 capacitors on the adjustment and output terminals are optional for improved performance. Bypassing the adjustment terminal to ground improves ripple rejection. This bypass capacitor prevents ripple from being amplified as the output volta ...
ADP1864 数据手册DataSheet 下载
... capacitor. Pulling the COMP pin below 0.3 V disables the ADP1864 and turns off the external PFET. Analog Ground. Directly connect the compensation and feedback networks to GND, preferably with a small analog GND plane. Connect GND to the power ground (PGND) plane with a narrow track at a single poin ...
... capacitor. Pulling the COMP pin below 0.3 V disables the ADP1864 and turns off the external PFET. Analog Ground. Directly connect the compensation and feedback networks to GND, preferably with a small analog GND plane. Connect GND to the power ground (PGND) plane with a narrow track at a single poin ...
Current source
A current source is an electronic circuit that delivers or absorbs an electric current which is independent of the voltage across it.A current source is the dual of a voltage source. The term constant-current 'sink' is sometimes used for sources fed from a negative voltage supply. Figure 1 shows the schematic symbol for an ideal current source, driving a resistor load. There are two types - an independent current source (or sink) delivers a constant current. A dependent current source delivers a current which is proportional to some other voltage or current in the circuit.