LM4876.pdf
... Note 2: Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. Operating Ratings indicate conditions for which the device is functional, but do not guarantee specific performance limits. Electrical Characteristics state DC and AC electrical specifications under particu ...
... Note 2: Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. Operating Ratings indicate conditions for which the device is functional, but do not guarantee specific performance limits. Electrical Characteristics state DC and AC electrical specifications under particu ...
Grounding and Bonding in Boats and Marinas
... difference and no current will flow. This is what provides personal protection on the boat. This is the exact reason the ABYC standard recommends connecting the AC ground system to the DC ground system. Key Summary Point #2: Connecting the AC and DC ground systems together, and bonding all metal com ...
... difference and no current will flow. This is what provides personal protection on the boat. This is the exact reason the ABYC standard recommends connecting the AC ground system to the DC ground system. Key Summary Point #2: Connecting the AC and DC ground systems together, and bonding all metal com ...
(i) Transformer sub-stations.
... 6. Instrument transformers • The function of these instrument transformers is to transfer voltages or currents in the power lines to values which are convenient for the operation of measuring instruments and relays. (i) Current transformer (C.T.). • It is a step-up transformer which steps down the ...
... 6. Instrument transformers • The function of these instrument transformers is to transfer voltages or currents in the power lines to values which are convenient for the operation of measuring instruments and relays. (i) Current transformer (C.T.). • It is a step-up transformer which steps down the ...
PROPER OPERATION OF STEP VOLTAGE REGULATORS IN THE
... real power flow through the regulator bank is from right to left (Generator to Substation). With normal bi-directional sensing, the regulator would therefore reverse its direction of operation and attempt to regulate the voltage on its source side, position (1). The Substation voltage is effectively ...
... real power flow through the regulator bank is from right to left (Generator to Substation). With normal bi-directional sensing, the regulator would therefore reverse its direction of operation and attempt to regulate the voltage on its source side, position (1). The Substation voltage is effectively ...
LT1580(-2.5) - Linear Technology
... permits the use of capacitors with very low ESR. This is critical in addressing the needs of modern, low voltage, high speed microprocessors. Current generation microprocessors cycle load current from several hundred milliamperes to several amperes in tens of nanoseconds. Output voltage tolerances a ...
... permits the use of capacitors with very low ESR. This is critical in addressing the needs of modern, low voltage, high speed microprocessors. Current generation microprocessors cycle load current from several hundred milliamperes to several amperes in tens of nanoseconds. Output voltage tolerances a ...
Unique Single-Chip Ballast Control IC with Integrated PFC Control
... cross-over distortion. This reduces THD to less than 10% as shown in figure 6. ...
... cross-over distortion. This reduces THD to less than 10% as shown in figure 6. ...
NL1036_NL7171
... before the ignitron is first placed in operation. Once in operation, maintain a thermal gradient so that the anode area is at least 10°C greater than the cathode. This is also true during any cooling period. The anode and anode area must not cool faster than the cathode. The ignitor becomes suscepti ...
... before the ignitron is first placed in operation. Once in operation, maintain a thermal gradient so that the anode area is at least 10°C greater than the cathode. This is also true during any cooling period. The anode and anode area must not cool faster than the cathode. The ignitor becomes suscepti ...
A. Internal Inductance
... where is the resistivity of the wire in m, l is the length in meter and A is the cross sectional area in m2. Unfortunately however the resistance of an overhead conductor is not the same as that given by the above expression. When alternating current flows through a conductor, the current densit ...
... where is the resistivity of the wire in m, l is the length in meter and A is the cross sectional area in m2. Unfortunately however the resistance of an overhead conductor is not the same as that given by the above expression. When alternating current flows through a conductor, the current densit ...
Problems With Assistance, Module 4, Problem 1
... • There are other ways to solve this problem. For example, we could use the node voltage method, and get only two equations. From that solution, we could find iX. The prime benefit of Source Transformations is that we never have more than one simultaneous equation. This can be of help not only in th ...
... • There are other ways to solve this problem. For example, we could use the node voltage method, and get only two equations. From that solution, we could find iX. The prime benefit of Source Transformations is that we never have more than one simultaneous equation. This can be of help not only in th ...
3.3 V Dual-Loop 50 Mbps to 1.25 Gbps Laser Diode Driver ADN2848
... Caution must be used when choosing component values for ac coupling to ensure that the time constants (L/R and RC, see Figure 9) are sufficiently long for the data rate and the expected number of CIDs (consecutive identical digits). Failure to do this could lead to pattern dependent jitter and verti ...
... Caution must be used when choosing component values for ac coupling to ensure that the time constants (L/R and RC, see Figure 9) are sufficiently long for the data rate and the expected number of CIDs (consecutive identical digits). Failure to do this could lead to pattern dependent jitter and verti ...
MAX1639 High-Speed Step-Down Controller with Synchronous Rectification for CPU Power ________________General Description
... size, and efficiency while staying within the worst-case specification limits for stress-related parameters, such as capacitor ripple current. The MAX1639 circuit was designed for the specified frequencies. Do not change the switching frequency with- ...
... size, and efficiency while staying within the worst-case specification limits for stress-related parameters, such as capacitor ripple current. The MAX1639 circuit was designed for the specified frequencies. Do not change the switching frequency with- ...
basic electrical engineering (ee-113)
... 1) Construct the circuit of fig 2.1. 2) Do not switch on the power supply. Disconnect the variable resistor R from the circuit and set it to 2000Ω by using ohmmeter. Now reconnect it. 3) Turn on the power supply and adjust it to 5V. Measure the current I in amperes and record it in the table. 4) Mea ...
... 1) Construct the circuit of fig 2.1. 2) Do not switch on the power supply. Disconnect the variable resistor R from the circuit and set it to 2000Ω by using ohmmeter. Now reconnect it. 3) Turn on the power supply and adjust it to 5V. Measure the current I in amperes and record it in the table. 4) Mea ...
