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RMPT30BD
Converter for Universal Pt100 probes, Harmony Analog, temperature transmitter, 0…100 degree COr 32…212 degree F
- Stock status:
- In stock
- Manufacturer:
- Schneider
- Product code:
- RMPT30BD
Main documents
| Range of Product | Harmony Analog |
|---|---|
| Product or Component Type | Converter for Universal Pt100 probes |
| Analogue input type | Temperature probe 0…100 °C/32..212 °F Pt 100 2, 3 or 4 wires |
| Analogue output type | Current 0…20 mA <= 500 Ohm Current 4…20 mA <= 500 Ohm Voltage 0…10 V >= 100 kOhm |
| Protection Type | Reverse polarity protection on power supply Short-circuit protection on output Overvoltage protection on output (+/- 30 V) Reverse polarity protection on output |
|---|---|
| abnormal analogue output voltage | -15…-11 V no input or input wire broken 11…15 V no input or input wire broken |
| abnormal analogue output current | -30…0 mA no input or input wire broken 22…30 mA no input or input wire broken |
| [Us] Rated Supply Voltage | 24 V DC non isolated +/- 20 % |
| Current consumption | <= 40 mA voltage output <= 60 mA current output |
| Local signalling | For power ON LED (green) |
| Measurement error | +/- 0.5 % of full scale 3 or 4 wires)20 °C temporary performance degradation when subject to electromagnetic interference) +/- 1 % of full scale 2 wires)20 °C temporary performance degradation when subject to electromagnetic interference) |
| Repeat accuracy | +/- 0.2 % full scale 20 °C +/- 0.6 % full scale 60 °C |
| Temperature Coefficient | 150 ppm/°C |
| Maximum wiring resistance | 0.2 Ohm 2 wires |
| Clamping Connection Capacity | 1 x 2.5 mm² 2 x 1.5 mm² |
| Tightening torque | 5.31…9.74 lbf.in (0.6…1.1 N.m) |
| marking | CE |
| Surge withstand | 0.5 kV 1.2/50 µs IEC 61000-4-5 |
| [Ui] Rated Insulation Voltage | 2000 V |
| Fixing mode | Clip-on (35 mm symmetrical DIN rail) Fixed (mounting plate) |
| Safety reliability data | MTTFd = 32.9 years B10d = 30437 |
| Net Weight | 0.26 lb(US) (0.12 kg) |
| Electromagnetic compatibility | Electrostatic discharge – test level: 6 kV level 3 (contact discharge) conforming to IEC 61000-4-2 Electrostatic discharge – test level: 8 kV level 3 (air discharge) conforming to IEC 61000-4-2 |
|---|---|
| Standards | DIN 43760 IEC 60751 IEC 60947-1 IEC 60584-1 |
| Product Certifications | GL UL CSA |
| IP degree of protection | IP20 terminal block) IP50 housing) |
| Fire resistance | 1562 °F (850 °C) IEC 60695-2-1 1562 °F (850 °C) UL |
| Shock resistance | 50 gn 11 ms IEC 60068-2-27 |
| Vibration resistance | 5 gn 10…100 Hz)IEC 60068-2-6 |
| Resistance to fast transients | 1 kV IEC 61000-4-4 on input-output) 2 kV IEC 61000-4-4 on power supply) |
| Disturbance radiated/conducted | CISPR 22 group 1 – class B CISPR 11 |
| Ambient Air Temperature for Storage | -40…185 °F (-40…85 °C) |
| Ambient Air Temperature for Operation | 32…122 °F (0…50 °C) mounting side by side 32…140 °F (0…60 °C) 2 cm spacing |
| Pollution degree | 2 IEC 60664-1 |
| Category | US10CP222375 |
|---|---|
| Discount Schedule | 0CP2 |
| GTIN | 3389110108965 |
| Returnability | No |
| Country of origin | ID |
| Unit Type of Package 1 | PCE |
|---|---|
| Number of Units in Package 1 | 1 |
| Package 1 Height | 1.06 in (2.7 cm) |
| Package 1 Width | 3.23 in (8.2 cm) |
| Package 1 Length | 3.35 in (8.5 cm) |
| Package 1 Weight | 3.81 oz (108.0 g) |
| Unit Type of Package 2 | S02 |
| Number of Units in Package 2 | 47 |
| Package 2 Height | 5.91 in (15 cm) |
| Package 2 Width | 11.81 in (30 cm) |
| Package 2 Length | 15.75 in (40 cm) |
| Package 2 Weight | 12.25 lb(US) (5.557 kg) |
| Unit Type of Package 3 | P06 |
| Number of Units in Package 3 | 752 |
| Package 3 Height | 29.53 in (75 cm) |
| Package 3 Width | 23.62 in (60 cm) |
| Package 3 Length | 31.50 in (80 cm) |
| Package 3 Weight | 216.05 lb(US) (98 kg) |
Product Description
Schneider Electric
Schneider Electric is a multinational corporation specializing in energy management and automation solutions. With operations in over 100 countries, the company offers a wide range of products and services for various industries, including residential, commercial, and industrial.
Schneider Electric is focused on sustainability and innovation, aiming to help their customers manage energy efficiently and reduce their environmental impact.
Schneider Electric offers a wide range of push buttons, designed for various industrial and commercial applications. Schneider Electric Push Buttons are high-quality, durable, and reliable components used to control electrical circuits in industrial, commercial, and residential settings.
They come in various types, sizes, and colors to meet the diverse needs of different applications. These push buttons are part of the Harmony range, known for its user-friendly design and robust performance.
Schneider Electric Harmony series offers a range of analog devices, including potentiometers, meters, and other interface components designed for industrial control systems. These devices are typically used for controlling and displaying various parameters such as speed, temperature, pressure, and other process variables.
Key Features of Schneider Harmony Analog Devices:
- Versatility: Harmony analog devices are versatile and can be used in a wide range of applications, from simple machines to complex industrial systems.
- Durability: Designed for harsh industrial environments, these devices are built to withstand extreme conditions, ensuring long-term reliability and performance.
- Ease of Use: With intuitive interfaces and straightforward installation processes, Harmony analog devices are user-friendly, making them easy to integrate into existing systems.
- Precision: High accuracy and reliability are key features, ensuring precise control and measurement in industrial applications.
- Compatibility: Harmony analog devices are compatible with a broad range of other Schneider Electric products, facilitating seamless integration within a unified control system.
RMPT30BD
The Schneider Electric RMPT30BD is a temperature transmitter from the Harmony Analog range. It is specifically designed to convert signals from Pt100 probes into standard electrical signals that are compatible with various automation platforms and controllers.
Key Features:
- Range and Compatibility: Part of the Harmony Analog interfaces, this temperature transmitter is versatile and suitable for universal use with Pt100 probes.
- Signal Conversion: It effectively converts the signal from a Pt100 probe into a standard electrical signal, which simplifies integration with automation systems and controllers.
Temperature Range:
- Celsius: 0 to 100°C
- Fahrenheit: 32 to 212°F
- Supply Voltage: Operates at 24V DC, non-isolated, ensuring consistent and reliable power supply.
- Extended Connection Distance: The design allows for an increased connection distance between the sensor and the measurement acquisition device, enhancing flexibility in system design and installation.
- Cost-Effective Cabling: Utilizes standard cables for connections to process equipment (such as PLCs), which are more cost-effective compared to specialized extension or compensation cables typically required for low-level signals from Pt100 probes or thermocouples.
The Schneider Electric RMPT30BD temperature transmitter is a reliable and versatile solution for converting Pt100 probe signals into standard electrical signals compatible with automation systems. Its wide temperature range, cost-effective cabling, and adherence to international standards make it an ideal choice for professionals seeking efficient and compliant temperature measurement solutions.
Frequently Asked Questions
What is NO and NC in Push Button Switches?
✅ Push button switches can be classified as either normally open (NO) or normally closed (NC). Normally open (NO) switches, also known as "OFF" position switches, complete the circuit when actuated. In contrast, normally closed (NC) switches, or "ON" position switches, break the circuit when actuated. Understanding the difference between NO and NC push button switches is crucial for selecting the right type for your application, whether it's for industrial machinery, control panels, or electronic devices.
What Are the Two Types of Push Button Switches?
✅ Push button switches come in two main types: single-pole and double-pole switches. The single-pole switch is the most common type, featuring a control device with a single input source and a single output source. This basic design makes single-pole switches ideal for a wide range of applications. Double-pole switches, on the other hand, have two input sources and two output sources, offering more complex control capabilities for advanced electrical systems.
Is a Push Button a Sensor?
✅No, a push button is not an analog sensor. An analog sensor provides a continuous output signal that varies in proportion to the measured quantity. In contrast, a push button provides a discrete output signal that changes state from one level to another when the button is pressed or released. This distinction makes push buttons ideal for applications requiring simple on/off control, unlike analog sensors that are used for more complex, variable measurements.
What is Inside a Push Button?
✅ A push button consists of several key components:
1. Button Actuator: This is the part you physically press. It is connected to an internal mechanism within the switch.
2. Contacts: Push button switches contain one or more sets of contacts, typically made from conductive materials like metal. In their default state, these contacts are separated.
When the button actuator is pressed, it moves the contacts together to complete an electrical circuit. This simple yet effective design is what makes push buttons reliable for various applications, from industrial machinery to everyday electronic devices.
Is a Push Button Digital or Analog?
✅A push button is a digital sensor. Unlike analog sensors, which provide a continuous range of values, digital sensors like push buttons have only two states: on or off. For example, when you press a push button, it changes from off to on, providing a discrete signal. Similarly, a digital light sensor can detect whether it is dark or bright, also giving a binary output. This clear distinction makes push buttons ideal for simple, straightforward control in various applications.
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