Unit-5 CMOS subsystem design - KIT
... path to ground from the pull-up transistor, the ratios must be such that any one conducting pull-down transistor will give the appropriate inverter-like transfer characteristic. ...
... path to ground from the pull-up transistor, the ratios must be such that any one conducting pull-down transistor will give the appropriate inverter-like transfer characteristic. ...
Not All Regulators Are Created Equal - Nanomodule or
... • Allows better utilization of discharging battery voltage ...
... • Allows better utilization of discharging battery voltage ...
EE100 Sensors and Robotics
... Motor Test: For the following test, put the DigiBot on blocks to keep it from moving when the wheels turn. First, test the function of the left motor by running a wire from VCC to the enable of the left motor, I. Then, connect a wire from VCC to the direction control of the left motor, J. Record th ...
... Motor Test: For the following test, put the DigiBot on blocks to keep it from moving when the wheels turn. First, test the function of the left motor by running a wire from VCC to the enable of the left motor, I. Then, connect a wire from VCC to the direction control of the left motor, J. Record th ...
installer`s reference xtant technologies
... ports dedicated to the amplifier are labeled Amp Vert/Horiz Acc. Port and Amp Vert. Acc. Port. The fifth port is dedicated to the RCA line outputs and is labeled Line Out Vert. Acc. Port. Xtant offers two types of accessory modules which are designed for either “Horizontal” or “Vertical” mounting. T ...
... ports dedicated to the amplifier are labeled Amp Vert/Horiz Acc. Port and Amp Vert. Acc. Port. The fifth port is dedicated to the RCA line outputs and is labeled Line Out Vert. Acc. Port. Xtant offers two types of accessory modules which are designed for either “Horizontal” or “Vertical” mounting. T ...
Inverting amplifier
... • If a high gain of, for example 100, is required this means that the ratio of R2 : R1 is 100. It is good practice to keep the resistors in op amp circuits within reasonable bounds. In view of this the maximum value for R2 should be 1 M Ohm. This means that the input resistor and hence the input res ...
... • If a high gain of, for example 100, is required this means that the ratio of R2 : R1 is 100. It is good practice to keep the resistors in op amp circuits within reasonable bounds. In view of this the maximum value for R2 should be 1 M Ohm. This means that the input resistor and hence the input res ...
Digital Systems: Combinational Logic Circuits
... presented as a Boolean expression instead of a truth table? Step 1: Convert the expression into SOP form. Step 2: For each product term in the SOP expression, place a 1 in each K-map square whose label contains the same combination of input values. Place a 0 in other squares. Example 4-14: y=C’(A’B’ ...
... presented as a Boolean expression instead of a truth table? Step 1: Convert the expression into SOP form. Step 2: For each product term in the SOP expression, place a 1 in each K-map square whose label contains the same combination of input values. Place a 0 in other squares. Example 4-14: y=C’(A’B’ ...
MTC-1X - maselec
... This is done with the 23 position rotary switch. The Mix function can be configured in two ways: 2.5.1 Cross-Fade. The control cross-fades between processed (after insert 4) and non-processed (before insert 4) signals. The output level remains constant in all positions (if the two levels are the sam ...
... This is done with the 23 position rotary switch. The Mix function can be configured in two ways: 2.5.1 Cross-Fade. The control cross-fades between processed (after insert 4) and non-processed (before insert 4) signals. The output level remains constant in all positions (if the two levels are the sam ...
Foot-switch wiring for Guitar Pedals
... settings and even push noise into the bypass signal thereby ruining our true bypass efforts altogether. To construct a better switch-based bypass we will use a technique to ground the circuit input when the effect is bypassed. This method does not always eliminate potential switching problems, but i ...
... settings and even push noise into the bypass signal thereby ruining our true bypass efforts altogether. To construct a better switch-based bypass we will use a technique to ground the circuit input when the effect is bypassed. This method does not always eliminate potential switching problems, but i ...
92 % typical efficiency • Input voltage range: 240 – 430
... During parallel operation load current is shared evenly between modules. However because of production tolerance on the output voltage calibration and passive current sharing between modules (droop sharing) there may be a deviation of load current - up to 6% difference module to module is possible v ...
... During parallel operation load current is shared evenly between modules. However because of production tolerance on the output voltage calibration and passive current sharing between modules (droop sharing) there may be a deviation of load current - up to 6% difference module to module is possible v ...
3-phase switching power supply 400
... Output protection: limit current can be selected as between 10% and 100% of rated current; protection type against overload and short circuit can be chosen from: 1) hiccup autoreset with limit current, equal to 150% of rated current and ON/OFF time equal to 5 secs./10 secs. (values can be altered ma ...
... Output protection: limit current can be selected as between 10% and 100% of rated current; protection type against overload and short circuit can be chosen from: 1) hiccup autoreset with limit current, equal to 150% of rated current and ON/OFF time equal to 5 secs./10 secs. (values can be altered ma ...
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... range of the circuit guarantees 2-to-3-GHz operation across process, temperature, and power supply variations. The main tuning input is prefiltered by two 100-MHz poles to reduce sensitivity to power supply noise. The wide-bandwidth bangbang tuning input has 500 times less gain than the main tuning ...
... range of the circuit guarantees 2-to-3-GHz operation across process, temperature, and power supply variations. The main tuning input is prefiltered by two 100-MHz poles to reduce sensitivity to power supply noise. The wide-bandwidth bangbang tuning input has 500 times less gain than the main tuning ...
the flea - Acoustica.org.uk
... example, giving rise to a DC or LF error as the ground potential at that point changes (through simple Ohms law). Remember all voltages have to be measured relative to something. If one part of a circuit measures it's voltage relative to a 'ground' that's at a different potential to another part of ...
... example, giving rise to a DC or LF error as the ground potential at that point changes (through simple Ohms law). Remember all voltages have to be measured relative to something. If one part of a circuit measures it's voltage relative to a 'ground' that's at a different potential to another part of ...
UNIVERSAL INPUT RESISTANCE OUTPUT UIRO
... UIRO CALIBRATION INSTRUCTIONS FOR 4 TO 20mA OPERATION The UIRO is factory configured for 0 to 100% of selected input ( 0 to 10V or 0 to 20mA). The factory settings for the Base & Gain potentiometers are as follows. [Gain Pot set for 2.5V (Tp1) and the Base pot set for 0V (Tp2)]. When a 4 to 20mA sig ...
... UIRO CALIBRATION INSTRUCTIONS FOR 4 TO 20mA OPERATION The UIRO is factory configured for 0 to 100% of selected input ( 0 to 10V or 0 to 20mA). The factory settings for the Base & Gain potentiometers are as follows. [Gain Pot set for 2.5V (Tp1) and the Base pot set for 0V (Tp2)]. When a 4 to 20mA sig ...
ADM3101E 3.3 V, Single Channel RS-232 Line Driver
... Their values are not critical and can be increased, if desired. Capacitor C3 is shown connected between V+ and VCC. It is also acceptable to connect this capacitor between V+ and GND. If desired, larger capacitors (up to 10 µF) can be used for capacitors C1–C4. ...
... Their values are not critical and can be increased, if desired. Capacitor C3 is shown connected between V+ and VCC. It is also acceptable to connect this capacitor between V+ and GND. If desired, larger capacitors (up to 10 µF) can be used for capacitors C1–C4. ...
Installation Manual
... (1)Risk of electrical shock and energy hazard. All failure should be examined by a qualified technician. Please do not remove the case of the DIN rail power supply by yourself! (2)Risk of electric arcs and electric shock (danger to life). Connecting both the primary and the secondary sides togeth ...
... (1)Risk of electrical shock and energy hazard. All failure should be examined by a qualified technician. Please do not remove the case of the DIN rail power supply by yourself! (2)Risk of electric arcs and electric shock (danger to life). Connecting both the primary and the secondary sides togeth ...
TLC5618A 数据资料 dataSheet 下载
... The TLC5618 is a dual 12-bit voltage output digital-to-analog converter (DAC) with buffered reference inputs (high impedance). The DACs have an output voltage range that is two times the reference voltage, and the DACs are monotonic. The device is simple to use, running from a single supply of 5 V. ...
... The TLC5618 is a dual 12-bit voltage output digital-to-analog converter (DAC) with buffered reference inputs (high impedance). The DACs have an output voltage range that is two times the reference voltage, and the DACs are monotonic. The device is simple to use, running from a single supply of 5 V. ...
Nov 1998 LT1468: An Operational Amplifier for Fast, 16-Bit Systems
... cycle, so output capacitor ripple current rating and ESR may be an issue. Maximum available output current will usually be a strong function of input voltage. Supporting low VIN-toVOUT ratios may require additional components for maintaining control- ...
... cycle, so output capacitor ripple current rating and ESR may be an issue. Maximum available output current will usually be a strong function of input voltage. Supporting low VIN-toVOUT ratios may require additional components for maintaining control- ...
Flip-flop (electronics)
In electronics, a flip-flop or latch is a circuit that has two stable states and can be used to store state information. A flip-flop is a bistable multivibrator. The circuit can be made to change state by signals applied to one or more control inputs and will have one or two outputs. It is the basic storage element in sequential logic. Flip-flops and latches are a fundamental building block of digital electronics systems used in computers, communications, and many other types of systems.Flip-flops and latches are used as data storage elements. A flip-flop stores a single bit (binary digit) of data; one of its two states represents a ""one"" and the other represents a ""zero"". Such data storage can be used for storage of state, and such a circuit is described as sequential logic. When used in a finite-state machine, the output and next state depend not only on its current input, but also on its current state (and hence, previous inputs). It can also be used for counting of pulses, and for synchronizing variably-timed input signals to some reference timing signal.Flip-flops can be either simple (transparent or opaque) or clocked (synchronous or edge-triggered). Although the term flip-flop has historically referred generically to both simple and clocked circuits, in modern usage it is common to reserve the term flip-flop exclusively for discussing clocked circuits; the simple ones are commonly called latches.Using this terminology, a latch is level-sensitive, whereas a flip-flop is edge-sensitive. That is, when a latch is enabled it becomes transparent, while a flip flop's output only changes on a single type (positive going or negative going) of clock edge.