Specs Programmable Logic Controller KV-X series

CPU Unit

Model				KV-X550	KV-X530	KV-X520	KV-X310
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General specifications	Power voltage			System configuration using a KV-5000/3000 Series expansion unit: 24 VDC (±10%) System configuration using only a KV‑8000/7000 Series expansion unit: 24 VDC (-15%/+20%)			System configuration using a KV-5000/3000 Series expansion unit: 24 VDC (±10%) System configuration using only a KV‑8000/7000 Series expansion unit: 24 VDC (±10%)
	Operating ambient temperature			System configuration using a KV-5000/3000 Series expansion unit: 0 to +50°C (No freezing) System configuration using only a KV‑8000/7000 Series expansion unit: 0 to +55°C (No freezing)
	Operating ambient humidity			System configuration using a KV-5000/3000 Series expansion unit: Up to 95% RH (No condensation) System configuration using only a KV‑8000/7000 Series expansion unit: Up to 95% RH (No condensation)
	Ambient temperature for storage			System configuration using a KV-5000/3000 Series expansion unit: −20 to +70°C System configuration using only a KV‑8000/7000 Series expansion unit: −25 to +75°C
	Storage relative humidity			System configuration using a KV-5000/3000 Series expansion unit: Up to 95% RH (No condensation) System configuration using only a KV‑8000/7000 Series expansion unit: Up to 95% RH (No condensation)
	Operating environment			No dust or corrosive gas
	Altitude			2000 m or less
	Noise immunity			IEC standard-compliant (IEC 61000-4-2/3/4/6)
	Withstand voltage			1500 VAC for one minute (between the power terminals and the I/O terminals, and between the external terminals and the case)
	Insulation resistance			50 MΩ or more (between the power terminals and the I/O terminals and between the external terminals and the case, with 500 VDC megohmmeter)
	Vibration resistance	Intermittent vibration	Frequency 5 to 9 Hz	Half amplitude: 3.5 mm ^*1
			Frequency 9 to 150 Hz	Acceleration: 9.8 m/s² ^*1
		Continuous vibration	Frequency 5 to 9 Hz	Half amplitude: 1.75 mm ^*1
			Frequency 9 to 150 Hz	Acceleration: 4.9 m/s² ^*1
	Internal current consumption (excluding current for driving input circuits)			600 mA or less ^*2			400 mA or less ^*6
	Shock resistance			Acceleration: 150 m/s², Application time: 11 ms, 2 times in each of the X, Y, and Z directions
	Pollution degree			2
	Weight			CPU Unit: approx. 420 g battery: approx. 10 g			CPU Unit: approx. 350 g
Performance specifications	Processing speed	Contact I/O		Min. 0.50 ns			Min. 1.3 ns
		Double-precision floating point calculation		Min. 1.0 ns			Min. 2.7 ns
	Program	Size		128 MB			8 MB
		Quantity		4000			1600
		Material quantity		100000			12500
		Supported languages		Ladder, structured text, mnemonic
	CPU memory capacity (project capacity + user memory capacity)			128 MB			8 MB
	Variables	Capacity	Overall	124 MB			28 MB
			Retained	5.5 MB		3.5 MB	384 KB
		Quantity	Overall	200000			100000
			Retained	100000
		Data type		BOOL, UINT, INT, UDINT, DINT, REAL, LREAL, TIME, STRING, ARRAY, structure, union, function block
		Array	Maximum number of elements per dimension	1040187392			234881024
			Maximum number of dimensions	8
			Maximum occupiable data size per array	65011712 words			14680064 words
			Specifiable data types	BOOL, UINT, INT, UDINT, DINT, REAL, LREAL, TIME, STRING, structure, union, function block
			Specifiable subscripts	Devices, constants, variables, calculations ^3 ^4
			Subscript-compatible data types	UINT, INT, UDINT, DINT
		Structure/Union	Maximum number of definitions	8000			1000
			Maximum number of members per definition	2048
			Maximum number of nested steps	8 ^*5
			Specifiable data types	BOOL, UINT, INT, UDINT, DINT, REAL, LREAL, TIME, STRING, array, structure, union
	Devices	Capacity		1.5 MB
		Types	Input relay R	Total: 32000 points, 1 bit (R00000 to R199915)
			Output relay R
			Internal auxiliary relay R
			Link relay B	32768 points, 1 bit (B0000 to B7FFF)
			Internal auxiliary relay MR	64000 points, 1 bit (MR000000 to MR399915)
			Latch relay LR	16000 points, 1 bit (LR00000 to LR99915)
			Timer T	4000 points, 32 bits (T0000 to T3999)
			Counter C	4000 points, 32 bits (C0000 to C3999)
			Data memory DM	65535 points, 16 bits (DM00000 to DM65534)
			Expansion data memory EM	65535 points, 16 bits (EM00000 to EM65534)
			File register FM	32768 points, 16 bits (FM00000 to FM32767)
			File register (dial mode) ZF	524288 points, 16 bits (ZF000000 to ZF524287)
			Link register W	32768 points, 16 bits (W0000 to W7FFF)
			Temporary memory TM	512 points, 16 bits (TM000 to TM511)
			Index register Z	10 points, 32 bits (Z1 to Z10)
			Control memory CM	7600 points, 16 bits (CM0000 to CM7599)
	Scan time setting	Fixed scan time operation		0.10 to 200.00 ms (units of 0.01 ms)
		Fixed-period module		0.05 to 6000.00 ms (units of 0.01 ms), or 0.01 to 60.00 s (units of 0.01 s)
	System	Maximum number of units to be installed		16 units (KV-8000/7000 Series expansion unit only)/48 units (KV-8000/7000 Series expansion unit, KV-5000/3000 Series expansion unit (when KV-EB1 is used))
		CPU unit I/O points		―			16 inputs + 16 outputs
		Maximum number of I/O points		3072 points (64-point unit × 48)			3104 points (64-point unit × 48)
	Power failure hold function	Program memory		Flash ROM can be written 10000 times
		Variables/Devices		Non-volatile RAM
		Calendar timer		Backup capacitor lasts approx. 15 days (at 25°C) and approx. 5 years with KV-B1 (battery) (at 25°C)			Backup condenser lasts approx. 15 days (at 25°C)
	Self-diagnosis function			CPU error, RAM error, and other problems
^1 Compliant with JIS B 3502 and IEC 61131-2, No. of scans: 10 times in each of the X, Y, and Z directions (for 100 min.) ^2 The maximum current consumption is 3.4 A when using KV-X550, KV-X530, or KV-X520. ^3 Specify 0 or a positive integer for the subscript. A conversion or calculation error will occur if any other number is specified. ^4 Only structured text can use calculation expressions as subscripts. Calculation expressions cannot be used as subscripts in ladder programs. ^5 When writing stAAA.member, the number of nested rows will be 1. When writing stAAA.stBBB.member, the number of nested rows will be 2. ^6 The maximum current consumption is 3.2 A when using KV-X310.

EtherCAT® Compatible Communication Unit

Model				KV-EC01
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Remote I/O Expansion output unit

Model			KV-NC16ETE	KV-NC16ETPE	KV-NC32ETE
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Expansion output unit	External connectionmethod		MOSFET output (With overcurrent protection function)^1^2		MOSFET (with overcurrent protection function) ^6 ^7
	External connection method		European terminal block		European Terminal Block
	Rated load		30 VDC, 0.2 A^*3		30 VDC, 0.2 A ^*8
	Leakage current (when output is OFF)		100 µA or less		100 μA or less
	Residual voltage (at ON)		0.6 VDC or less
	ON resistance		―		－
	Common method		16 points/1 common (16 terminals)^4^5		32 points/1 common (2 terminals) ^*9
	Response time	OFF to ON	100 µs or less (with a load of 1 mA or more)		100 μs or less (with a load of 1 mA or more)
		ON to OFF	200 µs or less (with a load of 1 mA or more)		200 μs or less (with a load of 1 mA or more)
	Relay life		―		－
	Relay replacement
Internal current consumption			30 mA or less		50 mA or less
Weight			Approx. 120 g
^1 If even a single overcurrent is detected, the protection operation (output turned OFF) and automatic recovery are repeated for all outputs within the shared common (The outputs within the shared common that are protected when an overcurrent is detected are outputs 000 to 007 or 008 to 015 for the KV-NC16ET(P) and KV-NC16ET(P)E.), until the cause of the problem is removed. ^2 Sink output types use MOSFET (N-ch) output. Source output types use MOSFET (P-ch) output. ^3 The rated load of each common terminal is 3.2. ^4 The KV-NC16ET(P), KV-NC16ET(P)E, and KV-NC32ET(P) COM terminals are shorted internally. ^5 The outputs within the shared common that are protected when an overcurrent is detected are outputs 000to 007 or 008 to 015 for the KV-NC16ET(P) and KV-NC16ET(P)E. ^6 For KV-NC32ET(P), if even a single overcurrent is detected, until the cause of the problem is removed, the protection operation (output turning OFF) and automatic recovery occur repeatedly for all outputs within the shared common. ^7 The sink output type is MOSFET (N-ch) output, and the source output type is MOSEFT (P-ch) output. ^8 The rated load per common1 terminal is 1.6A for KV-NC32ET(P) and 3.2A for KV-NC32ETE. ^*9 COM terminals are shorted internally.

Remote I/O Expansion input unit

Model				KV-NC16EXE	KV-NC32EXE
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Expansion input unit	External connection method			European terminal block
	Input Points			16 points	32 points
	Input terminals			24 VDC mode, 5 VDC mode	24 VDC mode
	Maximum input voltage			26.4 VDC
	Input rated voltage	24 VDC mode		5.2 mA	24 VDC, 3.7 mA
		5 VDC mode		1 mA	-
	Minimum ON voltage	24 VDC mode		19 V
		5 VDC mode		3.5 V	-
	Maximum OFF voltage	24 VDC mode		1.5 mA	1.5 m
		5 VDC mode		1.5 V	-
	Common method			16 points/1 common (16 terminals) ^*1	32 points/1 common (2 terminals) ^*2
	Input time constant (four-level switching)	Input time constant setting	OFF to ON: Typ.	25 µs: 10 µs 300 µs : 240 µs 1 ms: 1 ms 10 ms: 10 ms	25 μs: 10 μs 300 μs: 240 μs 1 ms: 1 ms 10 ms: 10 ms
			OFF to ON: Max.	25 µs: 50 µs 300 µs : 290 µs 1 ms: 1.2 ms 10 ms: 11 ms	25 μs: 50 μs 300 μs: 290 μs 1 ms: 1.2 ms 10 ms: 12 ms
			ON to OFF: Typ.	25 µs: 50 µs 300 µs : 280 µs 1 ms: 1 ms 10 ms: 10 ms	25 μs: 50 μs 300 μs: 280 μs 1 ms: 1 ms 10 ms: 10 ms
			ON to OFF: Max.	25 µs: 150 µs 300 µs : 390 µs 1 ms: 1.2 ms 10 ms: 11ms	25 μs: 150 μs 300 μs: 390 μs 1 ms: 1.2 ms 10 ms: 12 ms
	Input impedance			4.4 kΩ	6.2 kΩ
Internal current consumption				20 mA or less
Weight				Approx. 120 g
^1 The KV-NC16EXE has 16 COM terminals, but these are shared internally. ^2 There are 2 COMs, which are shared internally.

Model				KV-NC16EXTE
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Expansion input unit	External connection method			European Terminal Block
	Input Points			16
	Input terminals			24 VDC mode
	Maximum input voltage			26.4 VDC
	Input rated voltage	24 VDC mode		24 VDC/3.7 mA
	Minimum ON voltage	24 VDC mode		19 V
	Maximum OFF voltage	24 VDC mode		1.5 mA
	Common method			16 points/1 common (1 terminal) ^*1
	Input time constant (four-level switching)	Input time constant setting	OFF to ON: Typ.	25 μs: 10 μs 300 μs: 240 μs 1 ms: 1 ms 10 ms: 10 ms
			OFF to ON: Max.	25 μs: 50 μs 300 μs: 290 μs 1 ms: 1.2 ms 10 ms: 11 ms
			ON to OFF: Typ.	25 μs: 50 μs 300 μs: 280 μs 1 ms: 1 ms 10 ms: 10 ms
			ON to OFF: Max.	25 μs: 150 μs 300 μs: 390 μs 1 ms: 1.2 ms 10 ms: 11 ms
	Input impedance			6.2 kΩ
Expansion output unit	External connection method			European Terminal Block
	Output Points			16
	External connectionmethod			MOSFET (N-ch; with overcurrent protection function) ^*2
	Rated load			30 VDC, 0.2 A ^*3
	Leakage current (when output is OFF)			100 μA or less
	Residual voltage (at ON)			0.6 VDC or less
	Common method			16 points/1 common (1 terminal) ^*1
	Response time	OFF to ON		100 μs or less (with a load of 1 mA or more)
		ON to OFF		200 μs or less (with a load of 1 mA or more)
Internal current consumption				30 mA or less
Weight				Approx. 120 g
^1 The input COM and output COM terminals are independent. ^2 If even a single overcurrent is detected, until the cause of the problem is removed, the protection operation (output turning OFF) and automatic recovery occur repeatedly for all outputs within the shared common. ^*3 The rated load per common1 terminal for KV-NC16EXT/KV-NC32EXT is 1.6A. The rated load per common1 terminal for KV-NC16EXTE is 3.2A.