Manuals / Siemens / Computer Equipment / Network Card

Siemens EN 50295 manual New products

Models: EN 50295

1 152
Download 152 pages 32.94 Kb
Page 44
Image 44

AS-Interface Slaves

I/O modules for operation in the field

Digital I/O modules IP67 - K60

Technical specifications

Technical specifications common to all IP67 – K60 digital I/O modules

Operational voltage in accordance

 

26.5 to 31.6

with AS-Interface specification in V

 

 

Input connection

 

PNP

Inputs

 

 

• Sensor supply via AS-Interface

 

 

 

Short-circuit and overload

 

 

withstand capability

• Sensors

 

 

 

2- and 3-wire

• Voltage range in V

 

 

 

20 to 30

• Current carrying capacity f

 

 

 

200

or all inputs (Tu ￿40 °C) in mA

 

 

• Switching level High in V

 

 

 

10

• Input current Low/High in mA

 

 

 

￿1.5 / ￿6

Outputs

 

 

• Type of output

 

 

 

Electronics

Short-circuit protection

 

 

 

Built-in

• Inductive interference protection

 

 

 

Built-in

(free-wheeling diode)

 

 

• External 24 V DC supply voltage

 

 

 

Over black AS-Interface flat cable

• Watchdog

 

 

 

Built-in

AS-Interface certificate

 

Available (or under application

 

 

in the case of new products)

Approvals

 

UL, CSA, marine certification

 

 

(or under application in the case

6

of new products)

 

Degree of protection

 

IP67

Ground connection

 

PIN 5 of each M12 socket is

 

 

connected with the grounding

 

 

sheet in the mounting plate

 

 

through a pin

Ambient temperature in °C

 

-25 to +85

Storage temperature in °C

 

-40 to +85

Status indications

 

 

• I/O display

 

 

 

Yellow LED

• Display UAux

 

 

 

Green LED

AS-Interface/diagnostics display

 

 

 

Green/red LED

Connection

 

Using mounting plate for K60

 

 

compact module

Note 1

 

All K60 compact modules are

 

 

supplied with high-grade steel

 

 

screws/sockets

Note 2

 

To supply the output circuit,

 

 

an external supplementary

 

 

supply (AUX POWER)

of 20 to 30 V DC is necessary. The supplementary supply must comply with VDE 0106 (PELV), Safety Class III.

 

8 inputs/2 outputs

8 inputs

8 inputs new

 

2

A

--

--

 

 

 

 

 

A/B slave

Standard slaves

A/B slaves

 

Special assignment

Y-II assignment

Y-II assignment

 

3RK2 400–1HQ00–0AA3

3RK1 200–0DQ00–0AA3

3RK2 200–0DQ00–0AA3

Total current input in mA

￿300

￿270

￿270

Socket assignment, inputs

PIN 1 = Sensor supply L+

PIN 1 = Sensor supply L+

PIN 1 = Sensor supply L+

 

PIN 2 = Data input II

PIN 2 = Data input II

PIN 2 = Data input II

 

PIN 3 = Sensor supply L-

PIN 3 = Sensor supply L-

PIN 3 = Sensor supply L-

 

PIN 4 = Data input I

PIN 4 = Data input I

PIN 4 = Data input I

 

PIN 5 = Earth connection

PIN 5 = Earth connection

PIN 5 = Earth connection

Outputs

 

 

 

 

• Current carrying capacity per

 

 

 

 

2

 

--

--

output in A DC 12 / DC 13 typ.

 

 

 

 

• Maximum summation current

 

 

 

 

4

 

--

--

per module in A

 

 

 

 

• Socket assignment, outputs

 

 

 

 

3

= "-"

--

--

 

4

= Output

 

 

 

5

= Ground connection

 

 

I/O configuration

0

(Addr. 1) / 7 (Addr. 2)

0

0

ID/ID2 code

A/E (Addr. 1 and 2)

1/F

A/E

Assignment of data bits

 

 

 

 

• Socket 1

 

 

 

PIN4 = IN1(D0) (Addr. 1)

PIN4 = IN1(D0) (Addr. 1)

PIN4 = IN1(D0) (Addr. 1)

 

PIN2 = IN2(D1) (Addr. 1)

PIN2 = IN2(D1) (Addr. 1)

PIN2 = IN2(D1) (Addr. 1)

• Socket 2

 

 

 

PIN4 = IN2(D1) (Addr. 1)

PIN4 = IN2(D1) (Addr. 1)

PIN4 = IN2(D1) (Addr. 1)

• Socket 3

 

 

 

PIN4 = IN3(D2) (Addr. 1)

PIN4 = IN3(D2) (Addr. 1)

PIN4 = IN3(D2) (Addr. 1)

 

PIN2 = IN4(D3) (Addr. 1)

PIN2 = IN4(D3) (Addr. 1)

PIN2 = IN4(D3) (Addr. 1)

• Socket 4

 

 

 

PIN4 = IN4(D3) (Addr. 1)

PIN4 = IN4(D3) (Addr. 1)

PIN4 = IN4(D3) (Addr. 1)

• Socket 5

 

 

 

PIN4 = IN1(D0) (Addr. 2)

PIN4 = IN1(D0) (Addr. 2)

PIN4 = IN1(D0) (Addr. 2)

 

PIN2 = IN2(D1) (Addr. 2)

PIN2 = IN2(D1) (Addr. 2)

PIN2 = IN2(D1) (Addr. 2)

• Socket 6

 

 

 

PIN4 = IN2(D1) (Addr. 2)

PIN4 = IN2(D1) (Addr. 2)

PIN4 = IN2(D1) (Addr. 2)

• Socket 7

 

 

 

PIN4 = OUT1(D0) (Addr. 2)

PIN4 = IN3(D2) (Addr. 2)

PIN4 = IN3(D2) (Addr. 2)

 

PIN2 = IN3(D2) (Addr. 2)

PIN2 = IN4(D3) (Addr. 2)

PIN2 = IN4(D3) (Addr. 2)

• Socket 8

 

 

 

PIN4 = OUT2(D1) (Addr. 2)

PIN4 = IN4(D3) (Addr. 2)

PIN4 = IN4(D3) (Addr. 2)

 

PIN2 = IN4(D3) (Addr. 2)

 

 

Number of I/O sockets

8

 

8

8

Note

Module requires two addresses

Module requires two addresses

Module requires two addresses

 

 

 

 

 

6/44

Siemens IK PI · 2004

Page 43 Page 45
Page 44
Image 44
Siemens EN 50295 manual New products
Page 43 Page 45

EN 50295 specifications

Siemens EN 50295 is emerging as a pivotal standard in the domain of electrical safety and design, particularly relevant for the electrical industry and equipment manufacturing sectors. Primarily, this European Norm is geared towards ensuring the safety of electrical systems used in dry environments, which is essential for various industrial applications.

One of the main features of the EN 50295 standard is its comprehensive safety requirements which are aimed at mitigating the risks associated with electrical systems. This includes aspects like insulation resistance, protective earthing, and the management of electrical faults. By setting a benchmark for safety, Siemens EN 50295 assists manufacturers in maintaining compliance with national and international regulations, thus protecting both users and equipment.

The standard emphasizes the importance of safety measures in the design process. It outlines criteria for components, assembly methods, and system installation, ensuring that electrical equipment operates stably and gets rid of risks related to electrical failures. This involves rigorous testing of materials and components, which enhances their reliability and longevity while providing efficient overall operation.

Siemens EN 50295 also incorporates advancements in technology, acknowledging the significance of intellectual innovation in the industry. It encourages the integration of smart technologies and automation features into electrical systems, paving the way for enhanced operational efficiencies. Such technologies not only improve the performance of electric systems but also contribute to energy conservation, reducing the overall environmental footprint.

Another characteristic of the EN 50295 standard is its adaptability. The framework it provides can be customized depending on specific industry needs, making it versatile across various sectors such as manufacturing, construction, and transportation. This adaptability ensures that businesses can maintain high safety standards while still allowing room for innovation and modern practices.

In summary, Siemens EN 50295 presents a well-rounded approach to enhancing safety, reliability, and sustainability in electrical systems. Its features and characteristics are set to guide industries in making informed decisions regarding electrical configuration, ultimately fostering a safer and more efficient working environment. The incorporation of emerging technologies ensures that the standard remains relevant in a fast-evolving technological landscape, proving to be an invaluable asset for manufacturers and service providers alike.