"she did not accept my friend request.but its ok."
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"she did not accept my friend request.but its ok."
Translate this sentence to bengali language
"she did not accept my friend request.but its ok."
I'm tareq,I live I n Bangladesh, Bangladesh so beautiful country.
I'm tareq,I live I n Bangladesh, Bangladesh so beautiful country.
Tell something about yourself
Hi I am mahdi and I live in U.S America
I want to go to kidderpore
LoveQuote:
Originally Posted by bipin belliappa
Translator english to bangali
Just so people know who continue to post on this thread...
It's now very old and archived, so not generally visible anymore, unless people happen to go to this forum topic area, or are notified because there's activity on it because they've already posted on it.
If you have a separate question, it would be best if you started a new thread with the new question, if you want it to be noticed the best.
Thanks!
I'm living with uor pictures
OUTPUT ANALOG DEVICES
There are many types of electrical devices which are controlled by PLCs through their output modules. In this section we will illustrate two types of output analog devices, the stepper shown in figure 4-15 and the servometor shown in figure 4-16. A stepper motor's rotary position is dictated by its electrical input. It steps a number of degrees every time it receives an input pulse. The number of degrees per pulse/step depends on the model of stepper motor—for example, 2.5 degrees, 1 degree, etc. There are some steppers, called microsteppers, which have intermediate positions between steps. These depend on the relative signal strength between adjacent pole positions. There are special output modules available for control of stepper motors. The rotary motion of the stepper motor can be, translated into positional devices by various forms of mechanical linkages.
The Servomotor is shown in figure 4-16. The servomotor does not rotate in steps but has continuous motion. It operates similarly to the stepper motor. Special PLC output modules also are available for its control.
In the previous section we covered on/off hydraulic valves. There are many types, of hydraulic valves called servovalves which are positional, not just off and on. This is one example of the many additional types of output analog devices which are controllable by PLCs. All analog devices need a positional indicator, such as encoder, to feedback the output position as an analog signal to an input PLC module to show the output status. These feedback devices as well as the devices described in this section are covered in some of the texts listed in the Bibliography.
LADDER DIAGRAMS AND SEQUENCE LISTINGS
Ladder diagrams are the most commonly used diagrams for nonelectronic control circuits.
They are sometimes called elementary diagrams or line diagrams. Sometimes they are considered a subtype of schematic diagrams. The term ladder diagrams is used in this book. Why are these diagrams called ladder diagrams? They look like a ladder in a way. You start at the top of the ladder and generally work your way down.
Two types of ladder diagrams are used in control systems: the control ladder diagram and the power ladder diagram. This section concentrates on control ladder diagrams, with only a fundamental explanation of the power ladder diagram.
Figure 7-1 shows two basic control ladder diagrams. The first one (a) is for a
OUTPUT ANALOG DEVICES
There are many types of electrical devices which are controlled by PLCs through their output modules. In this section we will illustrate two types of output analog devices, the stepper shown in figure 4-15 and the servometor shown in figure 4-16. A stepper motor's rotary position is dictated by its electrical input. It steps a number of degrees every time it receives an input pulse. The number of degrees per pulse/step depends on the model of stepper motor—for example, 2.5 degrees, 1 degree, etc. There are some steppers, called microsteppers, which have intermediate positions between steps. These depend on the relative signal strength between adjacent pole positions. There are special output modules available for control of stepper motors. The rotary motion of the stepper motor can be, translated into positional devices by various forms of mechanical linkages.
The Servomotor is shown in figure 4-16. The servomotor does not rotate in steps but has continuous motion. It operates similarly to the stepper motor. Special PLC output modules also are available for its control.
In the previous section we covered on/off hydraulic valves. There are many types, of hydraulic valves called servovalves which are positional, not just off and on. This is one example of the many additional types of output analog devices which are controllable by PLCs. All analog devices need a positional indicator, such as encoder, to feedback the output position as an analog signal to an input PLC module to show the output status. These feedback devices as well as the devices described in this section are covered in some of the texts listed in the Bibliography.
LADDER DIAGRAMS AND SEQUENCE LISTINGS
Ladder diagrams are the most commonly used diagrams for nonelectronic control circuits.
They are sometimes called elementary diagrams or line diagrams. Sometimes they are considered a subtype of schematic diagrams. The term ladder diagrams is used in this book. Why are these diagrams called ladder diagrams? They look like a ladder in a way. You start at the top of the ladder and generally work your way down.
Two types of ladder diagrams are used in control systems: the control ladder diagram and the power ladder diagram. This section concentrates on control ladder diagrams, with only a fundamental explanation of the power ladder diagram.
Figure 7-1 shows two basic control ladder diagrams. The first one (a) is for a
OUTPUT ANALOG DEVICES
There are many types of electrical devices which are controlled by PLCs through their output modules. In this section we will illustrate two types of output analog devices, the stepper shown in figure 4-15 and the servometor shown in figure 4-16. A stepper motor's rotary position is dictated by its electrical input. It steps a number of degrees every time it receives an input pulse. The number of degrees per pulse/step depends on the model of stepper motor—for example, 2.5 degrees, 1 degree, etc. There are some steppers, called microsteppers, which have intermediate positions between steps. These depend on the relative signal strength between adjacent pole positions. There are special output modules available for control of stepper motors. The rotary motion of the stepper motor can be, translated into positional devices by various forms of mechanical linkages.
The Servomotor is shown in figure 4-16. The servomotor does not rotate in steps but has continuous motion. It operates similarly to the stepper motor. Special PLC output modules also are available for its control.
In the previous section we covered on/off hydraulic valves. There are many types, of hydraulic valves called servovalves which are positional, not just off and on. This is one example of the many additional types of output analog devices which are controllable by PLCs. All analog devices need a positional indicator, such as encoder, to feedback the output position as an analog signal to an input PLC module to show the output status. These feedback devices as well as the devices described in this section are covered in some of the texts listed in the Bibliography.
LADDER DIAGRAMS AND SEQUENCE LISTINGS
Ladder diagrams are the most commonly used diagrams for nonelectronic control circuits.
They are sometimes called elementary diagrams or line diagrams. Sometimes they are considered a subtype of schematic diagrams. The term ladder diagrams is used in this book. Why are these diagrams called ladder diagrams? They look like a ladder in a way. You start at the top of the ladder and generally work your way down.
Two types of ladder diagrams are used in control systems: the control ladder diagram and the power ladder diagram. This section concentrates on control ladder diagrams, with only a fundamental explanation of the power ladder diagram.
Figure 7-1 shows two basic control ladder diagrams. The first one (a) is for a
[QUOTE=sayem;2373179]OUTPUT ANALOG DEVICES
There are many types of electrical devices which are controlled by PLCs through their output modules. In this section we will illustrate two types of output analog devices, the stepper shown in figure 4-15 and the servomotor shown in figure 4-16. A stepper motor's rotary position is dictated by its electrical input. It steps a number of degrees every time it receives an input pulse. The number of degrees per pulse/step depends on the model of stepper motor—for example, 2.5 degrees, 1 degree, etc. There are some steppers, called microsteppers, which have intermediate positions between steps. These depend on the relative signal strength between adjacent pole positions. There are special output modules available for control of stepper motors. The rotary motion of the stepper motor can be, translated into positional devices by various forms of mechanical linkages.
The Servomotor is shown in figure 4-16. The servomotor does not rotate in steps but has continuous motion. It operates similarly to the stepper motor. Special PLC output modules also are available for its control.
In the previous section we covered on/off hydraulic valves. There are many types, of hydraulic valves called servovalves which are positional, not just off and on. This is one example of the many additional types of output analog devices which are controllable by PLCs. All analog devices need a positional indicator, such as encoder, to feedback the output position as an analog signal to an input PLC module to show the output status. These feedback devices as well as the devices described in this section are covered in some of the texts listed in the Bibliography.
LADDER DIAGRAMS AND SEQUENCE LISTINGS
Ladder diagrams are the most commonly used diagrams for nonelectronic control circuits.
They are sometimes called elementary diagrams or line diagrams. Sometimes they are considered a subtype of schematic diagrams. The term ladder diagrams is used in this book. Why are these diagrams called ladder diagrams? They look like a ladder in a way. You start at the top of the ladder and generally work your way down.
Two types of ladder diagrams are used in control systems: the control ladder diagram and the power ladder diagram. This section concentrates on control ladder diagrams, with only a fundamental explanation of the power ladder diagram.
Figure 7-1 shows two basic control ladder diagrams. The first one (a) is for a[/QUOTE
OUTPUT ANALOG DEVICES
There are many types of electrical devices which are controlled by PLCs through their output modules. In this section we will illustrate two types of output analog devices, the stepper shown in figure 4-15 and the servometor shown in figure 4-16. A stepper motor's rotary position is dictated by its electrical input. It steps a number of degrees every time it receives an input pulse. The number of degrees per pulse/step depends on the model of stepper motor—for example, 2.5 degrees, 1 degree, etc. There are some steppers, called microsteppers, which have intermediate positions between steps. These depend on the relative signal strength between adjacent pole positions. There are special output modules available for control of stepper motors. The rotary motion of the stepper motor can be, translated into positional devices by various forms of mechanical linkages.
The Servomotor is shown in figure 4-16. The servomotor does not rotate in steps but has continuous motion. It operates similarly to the stepper motor. Special PLC output modules also are available for its control.
In the previous section we covered on/off hydraulic valves. There are many types, of hydraulic valves called servovalves which are positional, not just off and on. This is one example of the many additional types of output analog devices which are controllable by PLCs. All analog devices need a positional indicator, such as encoder, to feedback the output position as an analog signal to an input PLC module to show the output status. These feedback devices as well as the devices described in this section are covered in some of the texts listed in the Bibliography.
LADDER DIAGRAMS AND SEQUENCE LISTINGS
Ladder diagrams are the most commonly used diagrams for nonelectronic control circuits.
They are sometimes called elementary diagrams or line diagrams. Sometimes they are considered a subtype of schematic diagrams. The term ladder diagrams is used in this book. Why are these diagrams called ladder diagrams? They look like a ladder in a way. You start at the top of the ladder and generally work your way down.
Two types of ladder diagrams are used in control systems: the control ladder diagram and the power ladder diagram. This section concentrates on control ladder diagrams, with only a fundamental explanation of the power ladder diagram.
Figure 7-1 shows two basic control ladder diagrams. The first one (a) is for a
:d:d:d:d:d:dQuote:
Originally Posted by sayem
PHP Code:[quote][/quote]
Hi, sayem!
What does anything that you've posted here have to do with the original question on this thread, please?
Thanks!
This is so retarded, you bengali losers are looking for people on this lame site? At least make Facebook or something -_- anyway I can't seem to find a english to bengali translator anywhere online- its such a shame.
This is so retarded, you bengali losers are looking for people on this lame site? At least make Facebook or something -_- anyway I can't seem to find a english to bengali translator anywhere online- its such a shame.
Aamar bondhutwa sweekar karlo na tabe tate dookhya nei.
Hi, aparajita74!
This is a site where people write in English. If you want to be understood the best, it would be good if you would write in English.
Thanks!
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