GTL2002 1. General description 2-bit bidirectional low voltage translator
... port, when the Dn port is HIGH, the voltage on the Sn port is limited to the voltage set by the reference transistor (SREF). When the Sn port is HIGH, the Dn port is pulled to VCC by the pull-up resistors. This functionality allows a seamless translation between higher and lower voltages selected by ...
... port, when the Dn port is HIGH, the voltage on the Sn port is limited to the voltage set by the reference transistor (SREF). When the Sn port is HIGH, the Dn port is pulled to VCC by the pull-up resistors. This functionality allows a seamless translation between higher and lower voltages selected by ...
MAX6730–MAX6735 Single-/Dual-/Triple-Voltage µP Supervisory Circuits with Independent Watchdog Output General Description
... VCC1, VCC2, RSTIN, MR, WDI to GND .....................-0.3V to +6V RST, WDO to GND (open drain)...............................-0.3V to +6V RST, WDO to GND (push-pull) .................-0.3V to (VCC1 + 0.3V) Input Current/Output Current (all pins) ...............................20mA ...
... VCC1, VCC2, RSTIN, MR, WDI to GND .....................-0.3V to +6V RST, WDO to GND (open drain)...............................-0.3V to +6V RST, WDO to GND (push-pull) .................-0.3V to (VCC1 + 0.3V) Input Current/Output Current (all pins) ...............................20mA ...
what is electricity? - SIPE Online Training
... insulated conductor wire around an iron object and then passing an electrical current through the wire. ...
... insulated conductor wire around an iron object and then passing an electrical current through the wire. ...
AD5290 数据手册DataSheet下载
... Typical represents average reading at +25°C, VDD = +15 V, and VSS = −15 V. Resistor position nonlinearity error R-INL is the deviation from an ideal value measured between the maximum resistance and the minimum resistance wiper positions. R-DNL measures the relative step change from an ideal value m ...
... Typical represents average reading at +25°C, VDD = +15 V, and VSS = −15 V. Resistor position nonlinearity error R-INL is the deviation from an ideal value measured between the maximum resistance and the minimum resistance wiper positions. R-DNL measures the relative step change from an ideal value m ...
MAX3054/MAX3055/MAX3056 ±80V Fault-Protected/Tolerant CAN Transceivers for In-Car Applications General Description
... of the bus lines in a controller area network (CAN). The devices provide differential transmit capability and switch to single-wire mode if certain fault conditions occur. The MAX3054/MAX3055/MAX3056 guarantee full wake-up capability during failure modes. The extended fault-protected voltage range o ...
... of the bus lines in a controller area network (CAN). The devices provide differential transmit capability and switch to single-wire mode if certain fault conditions occur. The MAX3054/MAX3055/MAX3056 guarantee full wake-up capability during failure modes. The extended fault-protected voltage range o ...
UNITS, PHYSICAL QUANTITIES AND VECTORS
... EXECUTE: From Ohm’s law, the voltage drop across the 6.00 resistor is V = IR = (4.00 A)(6.00 ) = 24.0 V. The voltage drop across the 8.00 resistor is the same, since these two resistors are wired in parallel. The current through the 8.00 resistor is then I = V/R = 24.0 V/8.00 = 3.00 A. The ...
... EXECUTE: From Ohm’s law, the voltage drop across the 6.00 resistor is V = IR = (4.00 A)(6.00 ) = 24.0 V. The voltage drop across the 8.00 resistor is the same, since these two resistors are wired in parallel. The current through the 8.00 resistor is then I = V/R = 24.0 V/8.00 = 3.00 A. The ...
25_InstructorSolutionsWin
... EVALUATE: The field is quite weak, since the potential would drop only a volt in 70 m of wire. (b) IDENTIFY: Take the ratio of the field in silver to the field in copper. SET UP: Take the ratio and solve for the field in silver: ES = EC(S/C) EXECUTE: ES = (0.0143 V/m)[(1.47)/(1.72)] = 1.22 102 ...
... EVALUATE: The field is quite weak, since the potential would drop only a volt in 70 m of wire. (b) IDENTIFY: Take the ratio of the field in silver to the field in copper. SET UP: Take the ratio and solve for the field in silver: ES = EC(S/C) EXECUTE: ES = (0.0143 V/m)[(1.47)/(1.72)] = 1.22 102 ...
92 1. PURPOSE The purpose of this experiment is to show
... used in series with a load that does not draw more than the full scale current. 2.3. The Ohmmeter In general, an ohmmeter is designed to measure resistance in the low, mid or high range. The mid-range of an ohmmeter is most commonly used in applications. The resistance value of a resistor is measure ...
... used in series with a load that does not draw more than the full scale current. 2.3. The Ohmmeter In general, an ohmmeter is designed to measure resistance in the low, mid or high range. The mid-range of an ohmmeter is most commonly used in applications. The resistance value of a resistor is measure ...
current, resistance, and electromotive force
... IDENTIFY: First use Ohm’s law to find the resistance at 20.0°C; then calculate the resistivity from the resistance. Finally use the dependence of resistance on temperature to calculate the temperature coefficient of resistance. SET UP: Ohm’s law is R = V/I, R = ρL/A, R = R0[1 + α(T – T0)], and the r ...
... IDENTIFY: First use Ohm’s law to find the resistance at 20.0°C; then calculate the resistivity from the resistance. Finally use the dependence of resistance on temperature to calculate the temperature coefficient of resistance. SET UP: Ohm’s law is R = V/I, R = ρL/A, R = R0[1 + α(T – T0)], and the r ...
Testing Ethernet Ports including Power Over Ethernet (802.3at and
... Ethernet ports without overvoltage protection Ethernet port basic insulation level Ethernet ports designed to be compliant to criteria “a” (1500 Vrms) will withstand a longitudinal impulse of 2.1 kV. Criteria “c” (2.4 kV) ports will withstand a longitudinal impulse of 2.4 kV, Annex C. Current multi- ...
... Ethernet ports without overvoltage protection Ethernet port basic insulation level Ethernet ports designed to be compliant to criteria “a” (1500 Vrms) will withstand a longitudinal impulse of 2.1 kV. Criteria “c” (2.4 kV) ports will withstand a longitudinal impulse of 2.4 kV, Annex C. Current multi- ...
Thevenin and Norton`s Theorem w/ Dep. Sources
... When we find the equivalent resistance for a Thévenin’s equivalent or a Norton’s equivalent, we set the independent sources equal to zero, and find the equivalent resistance of what remains. When a dependent source is present, trying to find the equivalent resistance results in a situation we have n ...
... When we find the equivalent resistance for a Thévenin’s equivalent or a Norton’s equivalent, we set the independent sources equal to zero, and find the equivalent resistance of what remains. When a dependent source is present, trying to find the equivalent resistance results in a situation we have n ...
Isolated, Shunt-Based Current Sensing
... The input passive filter needs to attenuate noise signals picked up in the connections between the current source, the current shunt and the AMC1304M25 analog input. Inherently the needs of the system dictate the use of a low-pass filter and the first step in designing such passive filter is to esta ...
... The input passive filter needs to attenuate noise signals picked up in the connections between the current source, the current shunt and the AMC1304M25 analog input. Inherently the needs of the system dictate the use of a low-pass filter and the first step in designing such passive filter is to esta ...
Design of High-Speed Op-Amps for Signal Processing
... Bad input-referred offset Potential for large power dissipation Not controlling output stages gm (and thus stability) ...
... Bad input-referred offset Potential for large power dissipation Not controlling output stages gm (and thus stability) ...
Charge Injection and Clock Feedthrough
... and CMOS image sensor pixels are limited in performance due to the effects known as charge injection and clock feedthrough. Charge injection occurs in a switched-capacitor circuit when the transistor turns off and disperses channel charge into the source and drain. The source, which is the sampling ...
... and CMOS image sensor pixels are limited in performance due to the effects known as charge injection and clock feedthrough. Charge injection occurs in a switched-capacitor circuit when the transistor turns off and disperses channel charge into the source and drain. The source, which is the sampling ...
3A, 30V, Host-Controlled Single-Input, Single Cell Switchmode Li
... The bq24260/bq24261/bq24261M/bq24262 is a highly integrated single-cell Li-Ion battery charger and system power path management device that supports operation from either a USB port or wall adapter supply. The power-path feature allows the bq24260/1/1M/2 to power the system from a high efficiency DC ...
... The bq24260/bq24261/bq24261M/bq24262 is a highly integrated single-cell Li-Ion battery charger and system power path management device that supports operation from either a USB port or wall adapter supply. The power-path feature allows the bq24260/1/1M/2 to power the system from a high efficiency DC ...
Resistors
... is negligible, but if the resistance is low (or the voltage across the resistor high) a large current may pass making the resistor become noticeably warm. The resistor must be able to withstand the heating effect and resistors have power ratings to show this. Power ratings of resistors are rarely qu ...
... is negligible, but if the resistance is low (or the voltage across the resistor high) a large current may pass making the resistor become noticeably warm. The resistor must be able to withstand the heating effect and resistors have power ratings to show this. Power ratings of resistors are rarely qu ...