MASUKAN/KELUARAN DAN PERANTARAMUKA
... Internal fault (e.g. divide by zero, overflow) Software External hardware - maskable - non maskable RESET ...
... Internal fault (e.g. divide by zero, overflow) Software External hardware - maskable - non maskable RESET ...
Physics 102
... 10.3 % error for I2 and 10.1% for I3. For circuit 2 The percent error for current is as follows: I1=0% I2=0% I3=0% Error Analysis: The errors of this lab are mainly due to the quality of the equipment and the accuracy in which the instruments are used. The percent error was very low about 10% or les ...
... 10.3 % error for I2 and 10.1% for I3. For circuit 2 The percent error for current is as follows: I1=0% I2=0% I3=0% Error Analysis: The errors of this lab are mainly due to the quality of the equipment and the accuracy in which the instruments are used. The percent error was very low about 10% or les ...
6B50 数据手册DataSheet 下载
... The 6B Series digital subsystem communication is compatible with the overall 6B Series communication protocol. Each digital I/O board can be configured for its address, baud rate and checksum status. Connection to the 16 and 24-channel solid state relay backplanes is by a 50-conductor ribbon cable. ...
... The 6B Series digital subsystem communication is compatible with the overall 6B Series communication protocol. Each digital I/O board can be configured for its address, baud rate and checksum status. Connection to the 16 and 24-channel solid state relay backplanes is by a 50-conductor ribbon cable. ...
Isolated, Field Configurable Digital I/O 6B50-1 / 6B50-2 FEATURES
... The 6B Series digital subsystem communication is compatible with the overall 6B Series communication protocol. Each digital I/O board can be configured for its address, baud rate and checksum status. Connection to the 16 and 24-channel solid state relay backplanes is by a 50-conductor ribbon cable. ...
... The 6B Series digital subsystem communication is compatible with the overall 6B Series communication protocol. Each digital I/O board can be configured for its address, baud rate and checksum status. Connection to the 16 and 24-channel solid state relay backplanes is by a 50-conductor ribbon cable. ...
Design and Analysis of DSTATCOM for Reactive Power
... voltage disturbances A DSTATCOM, connected at the point of common coupling (PCC), has been utilized to mitigate both types of PQ problems. When operating in current control mode (CCM), it injects reactive and harmonic components of load currents to make source currents balanced, sinusoidal, and in p ...
... voltage disturbances A DSTATCOM, connected at the point of common coupling (PCC), has been utilized to mitigate both types of PQ problems. When operating in current control mode (CCM), it injects reactive and harmonic components of load currents to make source currents balanced, sinusoidal, and in p ...
MODEL 257 3-Phase Monitor
... Connect the load control wiring to the appropriate terminals on the socket: For motor control applications; use terminals 1 and 8. For phase loss alarm applications; use terminals 1 and 2. Insert the Model 257 into the socket and apply power. If the contact does not transfer (green light ON), check ...
... Connect the load control wiring to the appropriate terminals on the socket: For motor control applications; use terminals 1 and 8. For phase loss alarm applications; use terminals 1 and 2. Insert the Model 257 into the socket and apply power. If the contact does not transfer (green light ON), check ...
DM7404 Hex Inverting Gates
... SEMICONDUCTOR CORPORATION. As used herein: 2. A critical component in any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness. ...
... SEMICONDUCTOR CORPORATION. As used herein: 2. A critical component in any component of a life support device or system whose failure to perform can be reasonably expected to cause the failure of the life support device or system, or to affect its safety or effectiveness. ...
Integrated Design
... from A.0 on the MCU. We set Vref to Vcc, and found that there were good accuracy measurements above 100mV. However, one could autorange voltage better by changing Vref internally for smaller, more accurate measurements. High voltage measurements were taken using a voltage divider that divides any in ...
... from A.0 on the MCU. We set Vref to Vcc, and found that there were good accuracy measurements above 100mV. However, one could autorange voltage better by changing Vref internally for smaller, more accurate measurements. High voltage measurements were taken using a voltage divider that divides any in ...
PT2399 - The Valve Wizard
... delay time of 25ms is achieved with most samples. A zero-ohm delay resistor (dead short) gives almost no further decrease in delay time, and is not recommended. Latch up: If the delay resistance is less than 1kΩ then the PT2399 may latch up at power on, which can lead to catastrophic failure. If ver ...
... delay time of 25ms is achieved with most samples. A zero-ohm delay resistor (dead short) gives almost no further decrease in delay time, and is not recommended. Latch up: If the delay resistance is less than 1kΩ then the PT2399 may latch up at power on, which can lead to catastrophic failure. If ver ...
AN1348
... together. ST485 has a Rin greater than 40kOhm allowing the connection of more than 32 units as well; - The common mode voltage VCM for the receiver, defined as the algebraic mean of the two localground-referenced voltage: VCM=(VA+VB)/2. This parameter is from -7V to +12V for RS-485 standard. VCM ena ...
... together. ST485 has a Rin greater than 40kOhm allowing the connection of more than 32 units as well; - The common mode voltage VCM for the receiver, defined as the algebraic mean of the two localground-referenced voltage: VCM=(VA+VB)/2. This parameter is from -7V to +12V for RS-485 standard. VCM ena ...
EECS 373 Design of Microprocessor-Based Systems
... • Inherent in converting continuous values to a finite number of discrete values. • Every voltage in the range [1/2 Vmax , ¾ Vmax) is mapped to “10”. • To minimize worst-case error, we assume that “10” means _____ Vmax. • Worst-case error is __________ . •For normalization, quantization error is exp ...
... • Inherent in converting continuous values to a finite number of discrete values. • Every voltage in the range [1/2 Vmax , ¾ Vmax) is mapped to “10”. • To minimize worst-case error, we assume that “10” means _____ Vmax. • Worst-case error is __________ . •For normalization, quantization error is exp ...
Abstract - 1000kv technologies
... Processing Unit (CPU). This hardware also contains memory chips onto which the software is loaded. The software residing on the memory chip is also called the ‘firmware’. The embedded system architecture can be represented as a layered architecture as shown in Fig. The operating system runs above th ...
... Processing Unit (CPU). This hardware also contains memory chips onto which the software is loaded. The software residing on the memory chip is also called the ‘firmware’. The embedded system architecture can be represented as a layered architecture as shown in Fig. The operating system runs above th ...
PPT - EECS - University of Michigan
... This line is often a best-fit line among the points in the plot but can also be a line that connects the highest and lowest data points, or endpoints. INL is determined by measuring the voltage at which all code transitions occur and comparing them to the ideal. The difference between the ideal volt ...
... This line is often a best-fit line among the points in the plot but can also be a line that connects the highest and lowest data points, or endpoints. INL is determined by measuring the voltage at which all code transitions occur and comparing them to the ideal. The difference between the ideal volt ...
ME 120 Homework 3
... a1 = 1.009250 x 10–3, a2 = 2.378405 x 10–4 and a3 = 2.019203 x 10–7. The log(x) function returns the natural logarithm of x. Write the Arduino code to evaluate T for Rt = 15 kΩ. What is T for Rt = 15 kΩ. Your solution should involve definitions for the variables, a1, a1, a1, Rt and T. In other words ...
... a1 = 1.009250 x 10–3, a2 = 2.378405 x 10–4 and a3 = 2.019203 x 10–7. The log(x) function returns the natural logarithm of x. Write the Arduino code to evaluate T for Rt = 15 kΩ. What is T for Rt = 15 kΩ. Your solution should involve definitions for the variables, a1, a1, a1, Rt and T. In other words ...
ALTA Software Guide
... rare unless you are doing a special run, for example using non-standard coincidence settings. •Current GPS date and time. When running this time should be incrementing every second. •CLEAR: Hitting clear not only clears the graphs it also closes the current run file. •Current temperature in the 3 do ...
... rare unless you are doing a special run, for example using non-standard coincidence settings. •Current GPS date and time. When running this time should be incrementing every second. •CLEAR: Hitting clear not only clears the graphs it also closes the current run file. •Current temperature in the 3 do ...
