AAT1239-1 数据资料DataSheet下载
... AAT1239 operation, LED brightness increases based on the data applied at the EN/SET pin. The SEL logic pin changes the feedback voltage between two programmable ranges. The AAT1239-1 features a high current limit and fast, stable transitions for stepped or pulsed current applications. The high switc ...
... AAT1239 operation, LED brightness increases based on the data applied at the EN/SET pin. The SEL logic pin changes the feedback voltage between two programmable ranges. The AAT1239-1 features a high current limit and fast, stable transitions for stepped or pulsed current applications. The high switc ...
MAX1718 Notebook CPU Step-Down Controller for Intel Mobile Voltage Positioning (IMVP-II) General Description
... The MAX1718 step-down controller is intended for core CPU DC-DC converters in notebook computers. It features a dynamically adjustable output, ultra-fast transient response, high DC accuracy, and high efficiency needed for leading-edge CPU core power supplies. Maxim’s proprietary Quick-PWM™ quick-re ...
... The MAX1718 step-down controller is intended for core CPU DC-DC converters in notebook computers. It features a dynamically adjustable output, ultra-fast transient response, high DC accuracy, and high efficiency needed for leading-edge CPU core power supplies. Maxim’s proprietary Quick-PWM™ quick-re ...
Digitally Isolated 2-Channel, Wide AC/DC Binary Input Module (Rev
... The detected changes of state can be processed further in the following ways: • Single-point indication: Each incoming or outgoing input signal causes data to be entered in the event buffer and the process image to be updated. • Transient indication: Each change in the input signal causes the proces ...
... The detected changes of state can be processed further in the following ways: • Single-point indication: Each incoming or outgoing input signal causes data to be entered in the event buffer and the process image to be updated. • Transient indication: Each change in the input signal causes the proces ...
Electroacoustic modelling of the subwoofer enclosures
... Figure 2: Developers of systematic design of ported boxes. As can be seen from figure 1, the resistive (real) part is very small at low frequencies. This is main reason why normal direct radiator loudspeakers are notoriously inefficient. The reactive part of the radiation impedance describes the extra ...
... Figure 2: Developers of systematic design of ported boxes. As can be seen from figure 1, the resistive (real) part is very small at low frequencies. This is main reason why normal direct radiator loudspeakers are notoriously inefficient. The reactive part of the radiation impedance describes the extra ...
MAX16993 Step-Down Controller with Dual 2.1MHz Step-Down DC-DC Converters General Description
... OUT1. Under no-load conditions, the MAX16993 consumes only 30µA of quiescent current, making it ideal for automotive applications. The high-voltage synchronous step-down DC-DC controller (OUT1) operates from a voltage up to 36V continuous and is protected from load-dump transients up to 42V. There i ...
... OUT1. Under no-load conditions, the MAX16993 consumes only 30µA of quiescent current, making it ideal for automotive applications. The high-voltage synchronous step-down DC-DC controller (OUT1) operates from a voltage up to 36V continuous and is protected from load-dump transients up to 42V. There i ...
OPAx836 Very-Low-Power, Rail-to-Rail Out, Negative
... OPA836 and OPA2836 devices offer performanceversus-power capability that is not attainable in other devices. Coupled with a power-savings mode to reduce current to < 1.5 μA, these devices offer an attractive solution for high-frequency amplifiers in battery-powered applications. The OPA836 RUN packa ...
... OPA836 and OPA2836 devices offer performanceversus-power capability that is not attainable in other devices. Coupled with a power-savings mode to reduce current to < 1.5 μA, these devices offer an attractive solution for high-frequency amplifiers in battery-powered applications. The OPA836 RUN packa ...
2.95-V to 17-V Input, 10-A Synchronous Buck, Integrated Power
... The maximum PVIN voltage is 17 V or (22 x VOUT), whichever is less. See Table 9 for more details. The stated limit of the set-point voltage tolerance includes the tolerance of both the internal voltage reference and the internal adjustment resistor. The overall output voltage tolerance will be affec ...
... The maximum PVIN voltage is 17 V or (22 x VOUT), whichever is less. See Table 9 for more details. The stated limit of the set-point voltage tolerance includes the tolerance of both the internal voltage reference and the internal adjustment resistor. The overall output voltage tolerance will be affec ...
10.7 Gbps Active Back-Termination, Differential Laser Diode Driver ADN2525
... Changes to Format .............................................................Universal Changes to Features and Figure 1................................................... 1 Changes to Table 1............................................................................ 3 Changes to Table 3.......... ...
... Changes to Format .............................................................Universal Changes to Features and Figure 1................................................... 1 Changes to Table 1............................................................................ 3 Changes to Table 3.......... ...
CHAPTER 2: Diode Applications (Aplikasi Diod)
... A full-wave rectifier allows current to flow during both the positive and negative half cycles or the full 360º whereas half-wave rectifier allows only during one-half of the cycle. The no. of +ve alternations is twice the half wave for the same time ...
... A full-wave rectifier allows current to flow during both the positive and negative half cycles or the full 360º whereas half-wave rectifier allows only during one-half of the cycle. The no. of +ve alternations is twice the half wave for the same time ...
EEEE 482 Lab7 Rev2015 1 - RIT - People
... inputs, and must be refined somewhat for more realistic input waveforms. The internal capacitors for a MOSFET are associated with the gate-to-channel, Gate overlap with the Drain, Source and substrate, and the source and drain junction capacitance to the substrate. The values of these capacitors dep ...
... inputs, and must be refined somewhat for more realistic input waveforms. The internal capacitors for a MOSFET are associated with the gate-to-channel, Gate overlap with the Drain, Source and substrate, and the source and drain junction capacitance to the substrate. The values of these capacitors dep ...
PASSKEY / VATS anti-theft bypass
... check and verify any circuit before connecting to it. Only a computer safe logic probe or digital multimeter should be used. Wiremagic.com Corp. assumes absolutely no liability or responsibility whatsoever pertaining to the accuracy or currency of the information supplied. The installation in every ...
... check and verify any circuit before connecting to it. Only a computer safe logic probe or digital multimeter should be used. Wiremagic.com Corp. assumes absolutely no liability or responsibility whatsoever pertaining to the accuracy or currency of the information supplied. The installation in every ...
Chapter 1 - Transformer
... The voltage in the primary series impedance (r1 + jx1) is small, even at full load. Also, the no load current (I0) is so small that its effect on the voltage drop in the primary series impedance is negligible. ...
... The voltage in the primary series impedance (r1 + jx1) is small, even at full load. Also, the no load current (I0) is so small that its effect on the voltage drop in the primary series impedance is negligible. ...
MAX3221E 数据资料 dataSheet 下载
... Supply voltage range, VCC (see Note 1) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . −0.3 V to 6 V Positive output supply voltage range, V+ (see Note 1) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . −0.3 V to 7 V Negative output sup ...
... Supply voltage range, VCC (see Note 1) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . −0.3 V to 6 V Positive output supply voltage range, V+ (see Note 1) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . −0.3 V to 7 V Negative output sup ...
LTSpice Guide
... Zoom – To zoom in on a measurement, left click and drag the mouse over the area. To zoom back to the normal area, right click and select zoom to fit or press “ctrl” – “E”. NOTE: When selecting an area, the size of the area can be viewed in the lower left hand corner. ...
... Zoom – To zoom in on a measurement, left click and drag the mouse over the area. To zoom back to the normal area, right click and select zoom to fit or press “ctrl” – “E”. NOTE: When selecting an area, the size of the area can be viewed in the lower left hand corner. ...
Test probe
A test probe (test lead, test prod, or scope probe) is a physical device used to connect electronic test equipment to a device under test (DUT). They range from very simple, robust devices to complex probes that are sophisticated, expensive, and fragile.