Digital Input / Output module
Various types of Digital Input module and a Digital Output module are available for use according to your application.
Details
Specifications
F3XD08-6F | F3XD16-3F | F3XD16-4F | F3XD16-3H | ||
---|---|---|---|---|---|
Input type | DC Voltage (sink / source) | DC Voltage (plus common) | |||
Number of Input | 8 | 16 | |||
Isolated Method | Photocoupler isolation | ||||
Rated Input Voltage | 12 to 24V DC | 24V DC | 12V DC | 24V DC | |
Rated Input Current | 4.1mA / points(12V DC) 8.5mA / points(24V DC) |
4.1mA / points 24V DC |
4.1mA / points 12V DC |
4.7mA / oints 24V DC |
|
Operating Voltage Range | 10.2 to 26.4V DC | 20.4 to 26.4V DC | 10.2 to 13.2V DC | 20.4 to 26.4V DC | |
Operating Voltage/Current | ON | 8.0V DC min. / 2.6mA min. | 16.0V DC min. / 3.2mA min. | 8.0V DC min. / 2.6mA min. | 16.0V DC min. / 3.2mA min. |
OFF | 3.4V DC max. / 1.0mA max. | 5.8V DC max. / 0.9mA max. | 3.4V DC max./ 1.0mA max. | 5.8V DC max. / 0.9mA max. | |
Maximum ratio of inputs turned on simultaneously | 100% | ||||
Input response | OFF→ON | Input sampling time can be specified for 5 steps: Always (0μs), 62.5μs, 250μs, 1ms, and 16ms. *1*2 | |||
ON→OFF | Input sampling time can be specified for 5 steps: Always (0μs), 62.5μs, 250μs, 1ms, and 16ms. *1*2 | ||||
External Connection | 10-point terminal block M3.5 screw | 18-point terminal block M3.5 screw | |||
Points/ Common | 8 points / common | ||||
Interrupt*2 | Can be specified for each input point. | ||||
Current Consumption | 40mA(5V DC) | 65mA(5V DC) | |||
Weight | 130g | 160g |
*1 : When F3SP28, F3SP38, F3SP5x, F3SP6x or F3SP7x is used. For other CPU modules, the specification is the same as the F3XDxx-xN. The actual response time can be obtained by adding the following values:
For F3XDxx - xF: 100 µs (OFF→ON) , 300 µs (ON→OFF)
For F3XD16-3H: 10 µs
*2 : If the input interrupt is to be used with the F3XDxx - xF, set the input sampling period to at least 62.5 µs.
Specifications
F3XD32-3F | F3XD32-4F | F3XD32-5F | ||
---|---|---|---|---|
Input type | DC Voltage (sink / source) | |||
Number of Input | 32 | |||
Isolation Method |
Photocoupler isolation |
|||
Rated Input Voltage | 24V DC | 12V DC | 5V DC | |
Rated Input Current | 4.1mA / points 24V DC | 4.1mA / points 12V DC | 4.0mA / points 5V DC | |
Operating Voltage Range | 20.4 to 26.4V DC | 10.2 to 13.2V DC | 4.5 to 5.5V DC | |
Operating Voltage/Current | ON | 16.0V DC min. / 3.2mA min. | 8.0V DC min. / 2.6mA min. | 3.5V DC min. / 2.0mA min. |
OFF | 5.8V DC max. / 0.9mA max. | 3.4V DC max. / 1.0mA max. | 1.0V DC max. / 0.2mA max. | |
Maximum ratio of inputs turned on simultaneously | 100% | |||
Input response | OFF→ON | Input sampling time can be specified for 5 steps: Always (0μs), 62.5μs, 250μs, 1ms, and 16ms. *1*2 | ||
ON→OFF | Input sampling time can be specified for 5 steps: Always (0μs), 62.5μs, 250μs, 1ms, and 16ms. *1*2 | |||
xternal Connection | One 40-pin connector | |||
Points/ Common | 8 points / common | |||
Interrupt*2 | Can be specified for each input point. | |||
Current Consumption | 75mA(5V DC) | |||
Weight | 120g |
*1 : When F3SP28, F3SP38, F3SP5x, F3SP6x or F3SP7x is used. For other CPU modules, the specification is the same as the F3XDxx-xN. The actual response time can be obtained by adding the following values:
For F3XDxx - xF: 100 µs (OFF→ON), 300 µs (ON→OFF)
For F3XD16-3H: 10 µs
*2 : If the input interrupt is to be used with the F3XDxx - xF, set the input sampling period to at least 62.5 µs.
Specifications
F3XD64-3F | F3XD64-4F | F3XD64-6M | ||
---|---|---|---|---|
Input Type | DC Voltage (sink / source) | Matrix scan | ||
Number of Inputs | 64 | |||
Isolation Method | Photocoupler isolation | |||
Rated Input Voltage | 24V DC | 12V DC | 12-24V DC | |
Rated Input Current | 4.1mA / points 24V DC | 4.1mA / points12V DC | 3.9mA(12V DC) 8.2mA(24V DC) |
|
Operating Voltage Range | 20.4-26.4V DC | 10.2-13.2V DC | 10.2-26.4V DC | |
Operating Voltage/Current | ON | 16.0V DC min. / 3.2mA min. | 8.0V DC min. / 2.6mA min. | 8.0V DC min. / 2.6mA min. |
OFF | 5.8V DC max. / 0.9mA max. | 3.4V DC max. / 1.0mA max. | 3.4V DC max. / 1.0mA max. | |
Maximum ratio of inputs turned on simultaneously | 60% | - | ||
Input response | OFF→ON | Input sampling time can be specified for 4 steps : Always (0μs),62.5μs, 250μs and 1ms.*1*2 | 16 ms max. | |
ON→OFF | Input sampling time can be specified for 4 steps : Always (0μs),62.5μs, 250μs and 1ms.*1*2 | 16 ms max. | ||
External Connection | Two 40-pin connectors | One 40-pin connecto | ||
Points/ Common | 8 points/ common | 8 x 8 matrix | ||
Interrupt *2 | None | |||
Current Consumption | 100mA(5V DC) | 110mA(5V DC) | ||
Weight | 160g | 130g |
*1 :When F3SP28, F3SP38, F3SP5x, F3SP6x or F3SP7x is used. For other CPU modules, the specification is the same as the F3XDxx-xN. The actual response time can be obtained by adding the following values:
For F3XDxx - xF: 100 µs (OFF→ON), 300 µs (ON→OFF)
For F3XD16-3H: 10 µs
*2 : If the input interrupt is to be used with the F3XDxx - xF, set the input sampling period to at least 62.5 µs.
Specifications
F3YD04-7N | F3YD08-6B | F3YD08-6A | F3YD08-7A | ||
---|---|---|---|---|---|
Output Type | Transistor contact | Transistor contact (source type) | Transistor contact (sink type) | ||
Number of Outputs | 4 | 8 | |||
Points/ Common | All points independent | 8 points/ common | |||
Isolation Method | Photocoupler Isolation | ||||
Rated Load Voltage | 24V DC | 12 to 24V DC | |||
Maximum load current | 2A / points | 1A / points 4A / common |
2A / points 8A / common |
||
Response Time |
OFF→ON | 5ms max. | 1ms max. | ||
ON→OFF | 3ms max. | 1ms max. | |||
Life | - | ||||
ON voltage | 0.5V DC max. | ||||
Off-time Leakage Current | 0.1mA max. | ||||
Surge Protector | Zener diode | Active clamp | |||
CPU Error Output *1 HOLD/RESET | Initial value: HOLD, Can be set every 8 points. | ||||
Current Consumption | 85 mA(5V DC) | 60 mA(5V DC) | 80 mA(5V DC) | ||
External Power Supply | Not required | 12 to 24V DC 10mA | |||
External Connection W | 10-point terminal block M3.5 screw | ||||
Weight | 140g | 130g |
*1 : For details on the module behavior when the CPU fails, see the GS 34M06A01-01E.
Specifications
F3YD14-5A | F3YD14-5B | ||
---|---|---|---|
Output Type | Transistor contact (sink type) | Transistor contact (source type) | |
Number of Outputs | 14 | ||
Points/ Common | 8 points / common 6 points / common | ||
Isolation Method | Photocoupler Isolation | ||
Rated Load Voltage | 12 to 24V DC | ||
Maximum load current | 0.5A / points 2A / common |
||
Response Time | OFF→ON | 1ms max. | |
ON→OFF | 1ms max. | ||
Life | - | ||
ON voltage | 0.5V DC max. | ||
Off-time Leakage Current | 0.1mA max. | ||
Surge Protector | Active clamp | ||
CPU Error Output *1 HOLD/RESET | Initial value: HOLD, Can be set every 8 points. | ||
Current Consumption | 120mA(5V DC) | ||
External Power Supply | 12 to 24V DC 20mA | ||
External Connection | 18-point terminal block M3.5 screw | ||
Weight | 160g |
*1 : For details on the module behavior when the CPU fails, see the GS 34M06A01-01E.
Specifications (sink type)
F3YD32-1H | F3YD32-1P | ||
---|---|---|---|
Output type | Transistor contact (sink type) | ||
Number of points | 32 | ||
Common line type | 8 points / common | ||
Isolation method | Photocoupler isolation | ||
Withstanding voltage | 1500 V AC for one minute between the group of terminals for external connection and the internal circuit | ||
Rated load voltage (Operating voltage range) | 12 to 24 V DC(10.2 to 26.4 V DC) | ||
Maximum load current | 0.1 A / point, 0.5 A / common | ||
Response time | OFF→ON | 0.1 ms max. | 1 ms max. |
ON→OFF | 0.1 ms max. | 1 ms max. | |
ON voltage | 0.5 V DC max. | ||
Off-time leak current | 0.1 mA max. | ||
Service life | Mechanical | - | |
Protectors*1 | Short -circuit | Controlled short-circuit current | Limit the output current or output shutdown |
Overheat | Output shutdown | ||
Surge Protector*2 | Active clamp circuit | ||
Fuse | None | ||
Current consumption | 165 mA(5 V DC) | 160 mA(5 V DC) | |
Output display*3 | LED (Lit when output is on) | ||
Output status when program stops*4 HOLD/RESET | Initial value: HOLD, Can be set every 8 points. | ||
External power supply | 12 to 24V DC 30mA | 12 to 24 V DC 55 mA | |
External connection | One 40-pin connector | ||
Weight | 110 g |
*1 : Operation of the protection circuitry:
- If short-circuit occurs, the ON voltage increases and the short-circuit current is limited within the range 1-3 A.
- If the short-circuit condition is removed, normal operation resumes.
- If the short-circuit condition persists, the short-circuit current may cause the temperature of the output element to reach approx. 160°C, triggering the overheat protector to shut down the output.
- If the temperature of the overheated output element then drops by about 10°C, normal operation resumes.
- The overheat protector will not be triggered if the module is operated normally within its specifications with no short-circuit condition.
- Both the short-circuit protector and overheat protector are designed to control outputs individually. Under some short-circuit conditions, however, the overheat protector may shut down not only its associated output but also other outputs.
- Short-circuit and overheat protectors are designed to protect the output element against short-term short-circuit. Never leave the module in prolonged short-circuit condition. Otherwise, the module enclosure may deteriorate or the PCB may be discolored.
- Ensure that the polarity of the external power supply is correct. Otherwise, a short-circuit condition may damage an output element, with smoldering and scattering of broken pieces.
- Ensure that the polarity of the external power supply is correct. Otherwise, a short-circuit condition may damage an output element, and cause smoldering and scattering of chips. Beware that wrongly connecting a connector wired for F3XD32 or F3XD64 to the module may disable the protectors and damage internal elements.
*2 :If an inductive load, such as a relay, is to be connected, a surge protector is also required on the load side. Connect a surge protector or a diode across the load nearby so that the module output terminal voltage will not exceed the specified operating load voltage range.
*3 : The contact operation of the output block of the circuit and the LED display operate independently and thus may be inconsistent in the event of an error.
*4 : For details on the module behavior when the CPU fails, see the GS 34M06A01-01E.
Specifications (source type with short-circuit protector)
F3YD32-1R | ||
---|---|---|
Output type | Transistor contact (source-type) | |
Number of points | 32 | |
Common line type | 8 points / common | |
Isolation method | Photocoupler isolation | |
Withstanding voltage | 1500 V AC for one minute between the group of terminals for external connection and the internal circuit | |
Rated load voltage *1 (Operating voltage range) | 12 to 24V DC (10.2 to 26.4 V DC) | |
Maximum load current | 0.1 A / point, 0.5 A / common | |
Response time | OFF→ON | 1ms max. |
ON→OFF | 1ms max. | |
ON voltage | 0.5 V DC max. | |
Off-time leak current | 0.1 mA max. | |
Service life | Mechanical | - |
Protectors*2 | Short-circuit | Controlled short-circuit current |
Overheat | Output shutdown | |
Surge Protector*3 | None | |
Fuse | None | |
Current consumption | 170 mA(5 V DC) | |
Output display*4 | LED (Lit when output is on) | |
Output status when program stops *5 HOLD/RESET | Initial value: HOLD, Can be set every 8 points | |
External power supply*1 | 12 to 24 V DC 60 mA | |
External connection | One 40-pin connector | |
Weight | 110 g |
*1 : The external power supply and the load power supply must be identical. Using separate power sources is not allowed even if they have the same voltage.
*2 : Operation of the protection circuitry:
- If short-circuit occurs, the ON voltage increases and the short-circuit current is limited within the range 1-3 A.
- If the short-circuit condition is removed, normal operation resumes.
- If the short-circuit condition persists, the short-circuit current may cause the temperature of the output element to reach approx. 160°C, triggering the overheat protector to shut down the output.
- If the temperature of the overheated output element then drops by about 10°C, normal operation resumes.
- The overheat protector will not be triggered if the module is operated normally within its specifications with no short-circuit condition.
- Short-circuit protectors are designed to control outputs individually. On the other hand, the overheat protectors control outputs in pairs: OUT1 and OUT2, OUT3 and OUT4, …, OUT63 and OUT64. Under some short-circuit conditions, however, a verheat protector may shut down not only its associated outputs but also other outputs.
- Short-circuit and overheat protectors are designed to protect the output element against short-term short-circuit. Never leave the module in prolonged short-circuit condition. Otherwise, the module enclosure may deteriorate or the PCB may be discolored.
- Ensure that the polarity of the external power supply is correct. Otherwise, a short-circuit condition may damage an output element, and cause smoldering and scattering of chips.
- Beware that wrongly connecting a connector wired for F3XD32 or F3XD64 to the module may disable the protectors and damage internal elements.
*3 : If an inductive load, such as a relay, is to be connected, a surge protector is also required on the load side. Connect a surge protector or a diode across the load nearby so that the module output terminal voltage will not exceed the specified operating load voltage range.
*4 : The contact operation of the output block of the circuit and the LED display operate independently and thus may be inconsistent in the event of an error.
*5 : For details on the module behavior when the CPU fails, see the GS 34M06A01-01E.
Specifications (TTL output)
F3YD32-1T | |||
---|---|---|---|
Output type | Transistor contact (TTL output) | ||
Number of points | 32 | ||
Common line type | 8 points / common | ||
Isolation method | Photocoupler isolation | ||
Rated load voltage (Operating voltage range) | 5 V DC | ||
Maximum load current | 16 mA / points, 128 mA / common | ||
Response time | OFF→ON | 1 ms max. | |
ON→OFF | 1 ms max. | ||
ON voltage | - | ||
Off-time leak current | - | ||
Life | - | ||
Surge Protector | Zener diode | ||
Current consumption | 210 mA(5 V DC) | ||
CPU Error Output*1 HOLD/RESET | Initial value: HOLD, Can be set every 8 points | ||
External power supply | 5 V DC 60 mA | ||
External connection | One 40-pin connector | ||
Weight | 110 g |
*1 : For details on the module behavior when the CPU fails, see the GS 34M06A01-01E.
Specification (sink type)
F3YD64-1P | ||
---|---|---|
Output type | Transistor contact (sink type) | |
Number of points | 64 | |
Common line type | 8 points / common | |
Isolation method | Photocoupler isolation | |
Withstanding voltage | 1500 V AC for one minute between the group of terminals for external connection and the internal circuit | |
Rated load voltage (Operating voltage range) |
12 to 24V DC(10.2 to 26.4V DC) | |
Maximum load current | 0.1A / point, 0.4A / common | |
Response time |
OFF→ON | 1ms max. |
ON→OFF | 1ms max. | |
ON voltage | 0.5V DC max. | |
Off-time leak current | 0.1mA max. | |
Service life | Mechanical | - |
Protectors*1 | Short-circuit | Limit the output current or output shutdown |
Overheat | Output shutdown | |
Surge Protector*2 | Active clamp circuit | |
Fuse | None | |
Current consumption | 275mA(5V DC) | |
Output display*3 | LED (Lit when outputs are turned on for a switched LED group) | |
Output status when program stops*4 HOLD/RESET | Initial value: HOLD, Can be set every 8 points | |
External power supply | 12 to 24V DC 95mA | |
External connection | Two 40-pin connectors | |
Weight | 130g |
*1 : Operation of the protection circuitry:
- If short-circuit occurs, the ON voltage increases and the short-circuit current is limited within the range 1-3 A.
- If the short-circuit condition is removed, normal operation resumes.
- If the short-circuit condition persists, the short-circuit current may cause the temperature of the output element to reach approx. 160°C, triggering the overheat protector to shut down the output.
- If the temperature of the overheated output element then drops by about 10°C, normal operation resumes.
- The overheat protector will not be triggered if the module is operated normally within its specifications with no short-circuit condition.
- Both the short-circuit protector and overheat protector are designed to control outputs individually. Under some short-circuit conditions, however, the overheat protector may shut down not only its associated output but also other outputs.
- Short-circuit and overheat protectors are designed to protect the output element against short-term short-circuit. Never leave the module in prolonged short-circuit condition. Otherwise, the module enclosure may deteriorate or the PCB may be discolored.
- Ensure that the polarity of the external power supply is correct. Otherwise, a short-circuit condition may damage an output element, and cause smoldering and scattering of chips. Beware that wrongly connecting a connector wired for F3XD32 or F3XD64 to the module may disable the protectors and damage internal elements.
*2 : If an inductive load, such as a relay, is to be connected, a surge protector is also required on the load side. Connect a surge protector or a diode across the load nearby so that the module output terminal voltage will not exceed the specified operating load voltage range.
*3 : The contact operation of the output block of the circuit and the LED display operate independently and thus may be inconsistent in the event of an error.
*4 : For details on the module behavior when the CPU fails, see the GS 34M06A01-01E.
Specifications (source type with short-circuit protector)
F3YD64-1R | ||
---|---|---|
Output type | Transistor contact (source-type) | |
Number of points | 64 | |
Common line type | 8 points / common | |
Isolation method | Photocoupler isolation | |
Withstanding voltage | 1500 V AC for one minute between the group of terminals for external connection and the internal circuit | |
Rated load voltage *1 (Operating voltage range) |
12 to 24V DC (10.2 to 26.4V DC) | |
Maximum load current | 0.1A / point, 0.4A / common | |
Response time |
OFF→ON | 1ms max. |
ON→OFF | 1ms max. | |
ON voltage | 0.5V DC max. | |
Off-time leak current | 0.1mA max. | |
Service life | Mechanical | - |
Protectors*2 | Short-circuit | Controlled short-circuit current. |
Overheat | Output shutdown | |
Surge Protector*3 | None | |
Fuse | None | |
Current consumption | 275mA(5V DC) | |
Output display*4 | LED (Lit when outputs are turned on for a switched LED group) | |
Output status when program stops *5 HOLD/RESET | Initial value: HOLD, Can be set every 8 points. | |
External power supply*1 | 12 to 24V DC 110mA | |
External connection | Two 40-pin connectors | |
Weight | 130g |
*1 : The external power supply and the load power supply must be identical. Using separate power sources is not allowed even if they have the same voltage.
*2 : Operation of the protection circuitry:
- If short-circuit occurs, the ON voltage increases and the short-circuit current is limited within the range 1-3 A.
- If the short-circuit condition is removed, normal operation resumes.
- If the short-circuit condition persists, the short-circuit current may cause the temperature of the output element to reach approx. 160°C, triggering the overheat protector to shut down the output.
- If the temperature of the overheated output element then drops by about 10°C, normal operation resumes.
- The overheat protector will not be triggered if the module is operated normally within its specifications with no short-circuit condition.
- Short-circuit protectors are designed to control outputs individually. On the other hand, the overheat protectors control outputs in pairs: OUT1 and OUT2, OUT3 and OUT4, …, OUT63 and OUT64. Under some short-circuit conditions, however, a verheat protector may shut down not only its associated outputs but also other outputs.
- Short-circuit and overheat protectors are designed to protect the output element against short-term short-circuit. Never leave the module in prolonged short-circuit condition. Otherwise, the module enclosure may deteriorate or the PCB may be discolored.
- Ensure that the polarity of the external power supply is correct. Otherwise, a short-circuit condition may damage an output element, and cause smoldering and scattering of chips.
- Beware that wrongly connecting a connector wired for F3XD32 or F3XD64 to the module may disable the protectors and damage internal elements.
*3 : If an inductive load, such as a relay, is to be connected, a surge protector is also required on the load side. Connect a surge protector or a diode across the load nearby so that the module output terminal voltage will not exceed the specified operating load voltage range.
*4 : The contact operation of the output block of the circuit and the LED display operate independently and thus may be inconsistent in the event of an error.
*5 : For details on the module behavior when the CPU fails, see the GS 34M06A01-01E.
Specifications (matrix scan)
F3YD64-1M | ||
---|---|---|
Output Type | Transistor contact (matrix scan) | |
Number of Outputs | 64 | |
Points / Common | 8 x 8 matrix | |
Isolation Method | Photocoupler Isolation | |
Rated Load Voltage | 12 to 24V DC | |
Maximum load current | 0.1A | |
Response Time | OFF→ON | 16ms max. |
ON→OFF | 16ms max. | |
ON voltage | 1.5V DC max. | |
Off-time Leakage Current |
0.1mA max. | |
Life | - | |
Surge Protector | Zener diode | |
Current Consumption | 125mA(5V DC) | |
CPU Error Output*1 HOLD/RESET | Initial value: HOLD, Can be set every 8 points. | |
External Power supply | 12 to 24V DC 40mA | |
External Connection | One 40-pin connector | |
Weight | 110g |
*1: For details on the module behavior when the CPU fails, see the GS 34M06A01-01E.
Downloads
Algemene specificaties
- FA-M3/ e-RT3 Overview (1.1 MB)
- BASIC Input/Output Modules (2.4 MB)
- Standard compliant products (192 KB)
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