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KZ SERIES

KZ SERIES – Non-resettable Micro-mechanical Counter.

KZ Series has a body of the smallest among LINE SEIKI counters: 20 mm drum-shaped housing. This non-resettable 5-digit totalizer can cater to various applications, such as Circuit Breakers, Switchgear, Gaming Machines, and many more.

When the space for mounting is extremely limited, KZ Series will be your ideal partner for counting as it fits anywhere thanks to its micro-miniature structure.

From 3 types, you can select the most appropriate actuation method for your own application:

Revolution, Direct Drive and Ratchet.

Count Type:
Revolution Counter
Adds 1 count for every complete revolution of the shaft. Count Speed: 1000 revolutions / minute

Direct Drive Counter
Adds 10 counts for every complete revolution (1 count / 1/10 shaft revolution) of the shaft. Count Speed: 100 revolutions / minute

Ratchet Counter
Adds 1 count for each 40 – 45° actuation of lever. Count Speed: 500 counts / minute

 

Data Sheet – KZ Series

 

 

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MATERONTEK PRESSURE TX’S

Series: EPT1000

Sensing and Internet of Things

OEM Pressure Transmitter
Stainless steel pressure sensor
Mass production, automated calibration

Features:

  • Measuring ranges from 200mbar to 100bar
  • Gauge pressure
  • Accuracy: ±0.5%FSO(Typ.)
  • Calibrated and temperature compensated
  • Stainless steel pressure sensor
  • Output 4…20mA, DC1…5V, DC 0.5…4.5V

Application:

  • Hydraulic and pneumatic
  • Machine building
  • Pumps
  • Water treatment
  • IoT pressure measurement

Technical data:

Pressure range:

Nominal pressure [bar]: 0.2, 0.35, 0.6, 1, 1.6, 2.5, 4, 6, 10, 16, 20, 25, 35, 50, 70, 100 (Standard Ranges – others available on request, in Vacuum, and Compound Ranges)
Overpressure [bar]: 0.4, 0.5, 1, 1.5, 3, 5, 7, 10, 15, 30, 40, 50, 70, 100, 140

Performance:

  • Accuracy* 0.5 %FS@25°C *Linearity (best straight line) +
  • Hysteresis + Repeatability
  • Operating Temperature -20 to 85°C
  • Compensated Temperature Range -10 to 70°C
  • Vibration 20 g RMS(20 to 2000Hz)
  • Shock 100 g(10ms)
  • Cycles 10×105
  • Long Term Stability 0.2 %FS
  • Electrical @25°C

Output signal / Supply:

  • 2-wire 4…20mA / VS = 9… 30VDC
  • 3-wire 1…5VDC / VS = 9… 30VDC
  • 3-wire 0.5…4.5VDC / VS = 9… 30VDC
  • Insulation Resistance 100 MΩ@100VDC
  • EMC Test IEC61000-6-2/IEC61000-6-3
  • Reverse polarity protection No damage – no function

Physical Specifications:

  • Housing 304 stainless steel
  • Diaphragm 316L stainless steel
  • Oil Filling Silicone oil
  • Protection IP65
  • Weight ~200g

Connections:

  • E1 – DIN175301-803A/DIN43650/IP65
  • E2 – DIN175301-803A with Circular connector, M12x1(4-pin)/IP65
  • E3 – Circular connector M12x1(4-pin)/IP65

Datasheet- Pressure Transmitter-EPT1000-E

 

Accessories:     Intelligent LED digital display:   Model DP-4

  

Features:
– 2-wire LED display
– No external power supply required
– The minimum operating current: 3mA
– Four-digit LED, display resolution 1/9999
– Display physical amount: pressure, temperature, flow etc.
– Standard DIN43650 electrical connection

 

Datasheet-Intelligent LED digital display-DP-4 -EN

 

 

 

 

 

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MATERONTEK – SUBMERSIBLE LEVEL TX’S

LT1000 submersible Series:

Sensing and Internet of Things

Submersible Level Transmitter
Stainless steel sensor
Mass production, automated calibration
Sensing and Internet of Things

The LT1000 submersible level transmitter has been designed for level measurement in contact
With the medium in harsh operating conditions. It offers an accuracy of 0.5 %FS and with an
ingress protection of IP 68, is suitable for permanent level measurements up to 100 m water column.

Features:

  • Measuring ranges from 2mH2O to 120 mH2O
  • IP68, Submersible level measurement
  • Low-cost, simple level measurement
  • Accuracy: ±0.5%FSO(Typ.)
  • Calibrated and temperature compensated
  • Stainless steel pressure sensor
  • Output 4…20mA, DC1…5V, DC 0.5…4.5V, MODBUS RTU

Application:

  • Drinking water systems
  • Ground water monitoring
  • Domestic water tanks
  • Rain spillway basin

Technical data

Measuring range:

Nominal pressure [mH2O] 2, 4, 5, 8, 10, 12, 15, 20, 25, 30, 40, 50, 60, 80, 100, 120
Overpressure [mH2O] 3, 6, 7, 12, 15, 20, 30, 35, 40, 50, 60, 70, 100, 110, 130

Performance:

  • Accuracy* 0.5 %FS@25°C *Linearity (best straight line) + Hysteresis + Repeatability
  • Operating Temperature -10 to 50°C
  • Compensated Temperature Range -10 to 50°C
  • Vibration 20 g RMS(20 to 2000Hz)
  • Shock 100 g(10ms)
  • Cycles 10×105
  • Long Term Stability 0.2 %FS
  • Electrical @25°C

Output signal:

  • 2-wire 4…20mA / VS = 9… 30VDC
  • 2-wire HART+4…20mA / VS = 12… 30VDC
  • 3-wire 0.5…4.5VDC / VS = 9… 30VDC
  • 3-wire 0.5…4.5VDC / VS = 5VDC
  • 4-wire I2C / VS = 3.3…5VDC
  • 4-wire MODBUS RTU / VS = 9…30VDC
  • Insulation Resistance 100 MΩ@100VDC
  • EMC Test IEC61000-6-2/IEC61000-6-3
  • Reverse polarity protection No damage – no function

Physical Specifications:

  • Housing 316 stainless steel
  • Diaphragm 316L stainless steel
  • Protection cap Stainless steel, POM-C
  • Cable sheath PUR, PE, PTFE
  • Oil Filling Silicone oil
  • Protection IP68
  • Weight ~250g (without cable)

Dimensions: (All dimensions in mm)

datasheet-level-transmitter-lt1000-enDownload

 

 

 

 

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Dynapar ACURO absolute encoders

acruo-2

The Danaher Industrial Controls Group (DICG) announced an expansion of its Dynapar ACURO series of absolute encoders with two new models that incorporate the company’s new opto-ASIC technology platform. ACURO is already a market leader in several key performance metrics, such as communication compatibility, networking speed, high resolution, and lowest current draw, among others.

The application / function are as follows:
The new opto-ASIC platform extended throughout the ACURO line now provides advantages that make absolute encoder technology applicable to a wider range of motion control and servomotor feedback applications. The new ACURO 36 and ACURO 110 models extend the ACURO series to applications in the small motor, packaging and textile machinery, and medical equipment sectors.

Absolute encoders improve machine reliability because, unlike incremental encoders, they always know their position, even at startup or after a power failure. DICG technology and manufacturing breakthroughs have reduced the cost of absolute encoders, so that they are now finding acceptance in every kind of application, not just the high end, demanding few.

Broader range of sizes – Only 36mm in diameter, the new hollowshaft ACURO 36 encoder is more than a third smaller than previous models in the ACURO line. At 110mm, the new hollowshaft ACURO 110 encoder accepts shaft sizes up to 50mm. Both are available in motor drive or standard industrial versions.

Low-profile gears shrink size, increase reliability – The ACURO 36 is one of the few encoders that use a gearbox instead of a battery to provide multiturn resolution. The low-profile mechanical gearbox allows a lower installation height than battery-buffered counter solutions.

Thin as a dime, the gear set facilitates an installation depth of just 31 mm – one of the shortest in the industry. Small encoders are especially important to motor OEMs, who are under pressure to continually shrink their designs.

In addition, the gears eliminate dead batteries as a potential source of downtime, and eliminate the need for battery maintenance. Running at speeds up to 12,000 rpm, the gear set is nonmagnetic and immune to interference in such applications as welding or motors equipped with powerful brakes.

New OPTO-ASIC generation platform:
The ACURO 36 and ACURO 110 encoders are based on DICG’s new generation platform based on opto-ASIC electronics, into which multiple functions are highly integrated. ACURO was engineered for field dependability, re-designed from the predecessor’s 150 parts and five circuit boards to less than 30 parts and just one board. Reliability is enhanced by minimizing the number of printed circuit boards and soldered connections. The new electronics also enabled Danaher designers to increase the temperature specs on the motor drive version to an industry-leading 120 degrees C – ideal for today’s smaller, hotter running motors.

The ACURO Series has the lowest current draw of any absolute encoder, at just 45mA for the single-turn version and 85mA for the multiturn version.

The new platform is consistent across DICG’s manufacturing plants worldwide. Globally based companies are assured of receiving the same design encoder no matter which region it was manufactured in. This allows company managers to reduce costs through component standardization.

The most communications protocols -The ACURO Series encoders can communicate with any type of control system using common formats, ranging from parallel to such field buses as profibus, DeviceNet, CANopen, CAN Layer2 Interbus, and SSI.A 2048-step sine/cosine signal (1Vpp) is also available for dynamic control. No other encoder offers as many communication options.

Network speeds five times faster:
The ACURO Series was the first to use the new BiSS (Bidirectional Synchronous Serial Interface) protocol. This freely licensable, open-standard protocol supports networking speeds five times faster than proprietary encoder protocols. Using the BiSS protocol, engineers free themselves from restrictive, proprietary bus standards, and achieve data throughput up to 10Mbaud using standard drivers and cables longer than 50m.

As BiSS is all digital, it eliminates the added cost of A/D converters needed in drive systems that connect to encoders using proprietary protocols. BiSS is hardware-compatible with the SSI protocol, simplifying integration.

Differentiate features are:
High accuracy:
The ACURO 36 offers up to 12-bit multiturn and 22-bit single turn resolution – one of the highest accuracy encoders on the market. The ACURO 110 offers 17-bit single turn resolution. High resolution allows precise control of machine motion and increases machine reliability.

More diagnostics than any other encoders:
The new ACURO Series offers more built-in diagnostics and alarms to monitor current and temperature than any other encoder. Optical sensors internally monitor the amplitude of the encoder signals, and exceeding the limit values will result in warning messages. A single-step code check ensures that the encoder signal reflects the recorded turn, bit by bit. The internal signal processing function checks each individual increment for possible occurrence after the previous event. Any violation of this rule, possibly due to disk breakage or mechanical overload, will lead to an alarm.

In addition, a self-monitoring feature checks the operating hours and signals a warning message to initiate preventive maintenance. What’s more, the BiSS protocol can report operation information that can be used diagnostically, such as torque, temperature, and acceleration.