Fundamentals of Signature Analysis
... current is a function of the impedance of the circuit, the analog signature displayed can be thought of as a visual representation of Ohm’s Law. V = IR where V = voltage, I = current and R = resistance The next figure shows a simplified diagram of the ASA core circuit. The sine wave generator is the ...
... current is a function of the impedance of the circuit, the analog signature displayed can be thought of as a visual representation of Ohm’s Law. V = IR where V = voltage, I = current and R = resistance The next figure shows a simplified diagram of the ASA core circuit. The sine wave generator is the ...
Voltage (Multi-Range) Sensor
... Build a simple RC circuit and measure the voltage across the capacitor while charging and discharging it. As a voltage source, it is possible to use a simple 1.5V battery. Please note that the resistor at your circuit is not larger then 200K Ohm. A typical graph for this experiment with a circuit of ...
... Build a simple RC circuit and measure the voltage across the capacitor while charging and discharging it. As a voltage source, it is possible to use a simple 1.5V battery. Please note that the resistor at your circuit is not larger then 200K Ohm. A typical graph for this experiment with a circuit of ...
2016-09-27-6-generator
... used. Engine transient response will add to this dip, but the engine response is usually much slower than the generator. This assumes a very low starting power factor. ...
... used. Engine transient response will add to this dip, but the engine response is usually much slower than the generator. This assumes a very low starting power factor. ...
AD8200 数据手册DataSheet 下载
... Basic automotive applications making use of the large commonmode range are shown in Figures 1 and 2. The capability of the device to operate as an amplifier in primary battery supply circuits is shown in Figure 1; Figure 2 illustrates the ability of the device to withstand voltages below system grou ...
... Basic automotive applications making use of the large commonmode range are shown in Figures 1 and 2. The capability of the device to operate as an amplifier in primary battery supply circuits is shown in Figure 1; Figure 2 illustrates the ability of the device to withstand voltages below system grou ...
Making a Shaker (or Forever) Flashlight
... over time. Until a DC battery is exhausted, it will output the same amount of voltage. AC stands for alternating current. This is the type of current used in the flashlights in this lesson as well as many other electronics, like televisions and radios. AC is different from DC in that the current swi ...
... over time. Until a DC battery is exhausted, it will output the same amount of voltage. AC stands for alternating current. This is the type of current used in the flashlights in this lesson as well as many other electronics, like televisions and radios. AC is different from DC in that the current swi ...
AN-781 APPLICATION NOTE
... pin connected to the comparator outputs. Figure 3 shows how t wo supplies can be monitored on a single input pin. This technique can be extended to any number of extra rails but, as with previous solutions, the sequencing engine is not able to distinguish between voltage faults on any supply monitor ...
... pin connected to the comparator outputs. Figure 3 shows how t wo supplies can be monitored on a single input pin. This technique can be extended to any number of extra rails but, as with previous solutions, the sequencing engine is not able to distinguish between voltage faults on any supply monitor ...
EET 161 02
... COMPONENTS: Students are asked to purchase 3 sets of leads, needle nose pliers, and wire strippers. These are available through the bookstore (BASIC TOOL KIT), or from other local vendors. CALCULATOR: a TI 84 or 86 or 89 or equivalent calculator is required for this class. COURSE DESCRIPTION: The fi ...
... COMPONENTS: Students are asked to purchase 3 sets of leads, needle nose pliers, and wire strippers. These are available through the bookstore (BASIC TOOL KIT), or from other local vendors. CALCULATOR: a TI 84 or 86 or 89 or equivalent calculator is required for this class. COURSE DESCRIPTION: The fi ...
88974134 - Crouzet
... RBT (Removable Terminal Blocks) versions : verify the maximum current according to the type of connection used Utilization category DC-12 : 24 V, 1.5 A Utilization category DC-13 : 24 V (L/R = 10 ms), 0.6 A Utilization category AC-12 : 230 V, 1.5 A Utilization category AC-15 : 230 V, 0.9 A 12 A for ...
... RBT (Removable Terminal Blocks) versions : verify the maximum current according to the type of connection used Utilization category DC-12 : 24 V, 1.5 A Utilization category DC-13 : 24 V (L/R = 10 ms), 0.6 A Utilization category AC-12 : 230 V, 1.5 A Utilization category AC-15 : 230 V, 0.9 A 12 A for ...
ADP3301 数据手册DataSheet 下载
... The ADP3301 is very easy to use. The only external component required for stability is a small 0.47 µF bypass capacitor on the output. Unlike the conventional LDO designs, the ADP3301 is stable with virtually any type of capacitors (anyCAP™*) independent of the capacitor’s ESR (Effective Series Resi ...
... The ADP3301 is very easy to use. The only external component required for stability is a small 0.47 µF bypass capacitor on the output. Unlike the conventional LDO designs, the ADP3301 is stable with virtually any type of capacitors (anyCAP™*) independent of the capacitor’s ESR (Effective Series Resi ...
Model: BC-12b Switching Type Dual Source Battery Management
... Input power from the solar panel is routed through F2 to the shunt switching charge regulator. Input power from the DC power source is connected through F1 to a series switching charge regulator. The outputs of both regulators are combined in a common cathode Schottky type rectifier. A yellow LED wi ...
... Input power from the solar panel is routed through F2 to the shunt switching charge regulator. Input power from the DC power source is connected through F1 to a series switching charge regulator. The outputs of both regulators are combined in a common cathode Schottky type rectifier. A yellow LED wi ...
DC/DC power module 12V/0.92A/11W
... The DC/DC power module shall be installed in an end-use equipment and considerations should be given to measuring the case temperature to comply with TCmax when in operation. Abnormal component tests are conducted with the input protected by an external 15 A fuse. The need for repeating these tests ...
... The DC/DC power module shall be installed in an end-use equipment and considerations should be given to measuring the case temperature to comply with TCmax when in operation. Abnormal component tests are conducted with the input protected by an external 15 A fuse. The need for repeating these tests ...
Question Bank
... 22. List any two advantages of 3-phase system over 1-phase system. 23. Mention the two types of MI instruments. 24. How can ammeter and voltmeter are connected in a circuit? Why? 25. Mention any two types of Wattmeters. 26. List the major components of a single phase induction type energy meter? 27. ...
... 22. List any two advantages of 3-phase system over 1-phase system. 23. Mention the two types of MI instruments. 24. How can ammeter and voltmeter are connected in a circuit? Why? 25. Mention any two types of Wattmeters. 26. List the major components of a single phase induction type energy meter? 27. ...
Single-phase PWM controller with light
... PHASE pin. The pin is internally connected through a switch to the VCCDR pin. See Section 8 on page 17 for guidance in designing the capacitor value. ...
... PHASE pin. The pin is internally connected through a switch to the VCCDR pin. See Section 8 on page 17 for guidance in designing the capacitor value. ...
Producing Potato Power
... 1. What combination of materials produced the highest voltage? Answers will vary depending on distance between terminals, connection with the leads, and depth that the nails and wire are inserted. In general, the zinc plated nail and copper wire should produce the highest voltage. 2. Chemical reacti ...
... 1. What combination of materials produced the highest voltage? Answers will vary depending on distance between terminals, connection with the leads, and depth that the nails and wire are inserted. In general, the zinc plated nail and copper wire should produce the highest voltage. 2. Chemical reacti ...
LTC1152 - Rail-to-Rail Input Rail-to-Rail Output Zero-Drift Op Amp
... the bandwidth of the LTC1152. With 0.1µF from pin 5 to pin 6, the LTC1152’s gain-bandwidth product is reduced from 700kHz to around 200Hz. Note that compensation capacitors greater than 1µF can cause latch-up under severe output fault conditions; this can be prevented by clamping pin 5 to each suppl ...
... the bandwidth of the LTC1152. With 0.1µF from pin 5 to pin 6, the LTC1152’s gain-bandwidth product is reduced from 700kHz to around 200Hz. Note that compensation capacitors greater than 1µF can cause latch-up under severe output fault conditions; this can be prevented by clamping pin 5 to each suppl ...
BF961 N–Channel Dual Gate MOS-Fieldeffect Tetrode
... 3. Council Decision 88/540/EEC and 91/690/EEC Annex A, B and C ( transitional substances ) respectively. Vishay Semiconductor GmbH can certify that our semiconductors are not manufactured with ozone depleting substances and do not contain such substances. ...
... 3. Council Decision 88/540/EEC and 91/690/EEC Annex A, B and C ( transitional substances ) respectively. Vishay Semiconductor GmbH can certify that our semiconductors are not manufactured with ozone depleting substances and do not contain such substances. ...
Oscillators & Components
... • It is desirable to have low capacity across the diode junction in higher frequencies where the capacitive reactance forms a significant path around the diode when reverse (Back) biased in the non conductive state. ...
... • It is desirable to have low capacity across the diode junction in higher frequencies where the capacitive reactance forms a significant path around the diode when reverse (Back) biased in the non conductive state. ...
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.