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April 9, 2026 BY
IN Emerson

Emerson M-Series DC to DC System Power Supplies

Product Description

The DC/DC System Power Supply is used to power DeltaV controllers and I/O interfaces

from a 12 or 24V DC bulk power supply that can be mounted next to the controller

in the power supply/controller carrier and provides the 5 and 3.3V DC power required by the controller.

It provides 5V and 3.3V DC power for the controller.

It also provides 12 VDC power for the I/O interfaces and up to 8 amps when powered from a 24 VDC bulk

power supply.

Plug and Play Components. The system power supply assembly fits into any

power slot of any DeltaV power supply/controller carrier.

This not only simplifies system design, but also reduces spare parts inventory through interchangeability.

DIN-Rail Mounting. Power supply installation is simple.

Mount the power supply/controller carrier on the T-shaped DIN rail.

Then plug the system power supply into the carrier.

Internal Power Bus. The power supply/controller carrier contains an internal power bus.

You do not need to use external cables to connect the system power supply

to the DeltaV controller and I/O interface carriers.

Modular power supplies. You know the power requirements for today,

but what about the future? Build a solid foundation now and build on it later.

Modular power architecture allows you to install additional power supplies for controllers and I/O

subsystems.

Precision outputs. System power supplies accept a wide range of power

inputs and convert the inputs into precise power outputs.

Power Redundancy: DeltaV system power supplies can be redundant on a 1-to-N basis, while other

systems are 1-to-1.

This provides an economical solution for creating system redundancy.
April 9, 2026 BY
IN ABB

ABB M4M Profibus network characteristics

Profibus network characteristics

The Profibus network extension by means of signal segmentation and regeneration

is limited to a maximum of 32 nodes/partners (master/slave) per segment;

On the other hand, the entire network can have up to 126 nodes/partners.

If you need to increase the length of the bus or use more than 32 stations, you must use repeaters.

Any repeater is a ‘load’ on the bus. Each new segment introduced 

must be terminated at both ends of the segment, the maximum length

of which depends on the baud rate; however, standard procedure is to connect up to 30 loads per

segment.

The transmission method for Profibus DP is the RS485 interface

(according to the EIA standard) using shielded twisted-pair cables.

The simple RS485 twisted-pair transmission method is ideally

suited for linear/tree networks with high transmission speeds.

The Profibus must always be terminated with two terminals.

As shown in the figure below, either terminal must consist of three resistors;

The terminals must be fed with a voltage of 0 to 5 volts DC,

otherwise their resistance is not equal to the characteristic impedance of the cable.

With this structure, the voltage on the bus is fixed when there are no active devices.
April 9, 2026 BY
IN ABB

ABB M4M Network Analyser Transmission method

According to the IEC 61158/EN 50170 standard, Profibus DP (decentralised periphery)

is typically used to connect decentralised peripheral devices with fast response times.

The standard specifies node distances of up to 300 metres with bit rates

ranging from 9.6 kbps to 12 Mbps, using standard cables and maintaining maximum operating speed.

Transmission method

The transmission method for Profibus DP is the RS485 interface

(according to the EIA standard) using shielded twisted-pair cables.

The simple RS485 twisted-pair transmission method is ideally

suited for linear/tree networks with high transmission speeds.

The Profibus must always be terminated with two terminals.

As shown in the figure below, either terminal must consist of three resistors;

The terminals must be fed with a voltage of 0 to 5 volts DC,

otherwise their resistance is not equal to the characteristic impedance of the cable.

With this structure, the voltage on the bus is fixed when there are no active devices.
April 9, 2026 BY
IN ABB

ABB FAU810 Specifications

FAU810 Specifications

Each flame analysis unit consists of two independent channels.

Each channel receives and processes one flame detector signal.

The two detectors can be any combination of the following designs:

– SF810 Flame Scanning Head

– All DFS flame scanning heads

– Flame Rod (Ion Flame Monitoring)

Each detector can be independently configured via the FAU810 pushbutton and display, 

the Flame Explorer engineering tool or Profibus.

The FAU810 can be powered by a single or redundant 24 VDC power supply (+/- 20%).

The FAU810 has a built-in diode auction for power isolation.

Two digital input channels are available for remote parameter switching.

One digital input per sensor.

(Example: Dedicated flame detector parameters can be customised to monitor coal or oil burning)

The FAU810 can be upgraded in the field based on official releases of

new product features through a proprietary firmware download tool.
April 9, 2026 BY
IN ABB

ABB FAU 810 Flame Analyser Unit Remote Monitoring

Signalling an Unsafe Condition

A no flame condition occurs when the FAU810 logic determines that an unsafe condition exists.

Remote Monitoring

Extended setup, parameter archiving, group viewing, advanced diagnostics including flame raw data,

real-time and historical trending for up to 254 networked scanning heads.

Networking with the DTM is possible via the PC-based software package

Flame ExplorerTM or via any Profi Bus DP-V1 master remote control.

FAU810 Specifications

Each flame analysis unit consists of two independent channels.

Each channel receives and processes one flame detector signal.

The two detectors can be any combination of the following designs:

– SF810 Flame Scanning Head

– All DFS flame scanning heads

– Flame Rod (Ion Flame Monitoring)

Each detector can be independently configured via the FAU810 pushbutton and display, 

the Flame Explorer engineering tool or Profibus.

The FAU810 can be powered by a single or redundant 24 VDC power supply (+/- 20%).

The FAU810 has a built-in diode auction for power isolation.

Two digital input channels are available for remote parameter switching.

One digital input per sensor.

(Example: Dedicated flame detector parameters can be customised to monitor coal or oil burning)

The FAU810 can be upgraded in the field based on official releases of

new product features through a proprietary firmware download tool.
April 9, 2026 BY
IN Honeywell

Honeywell 91MCE Series MICRO SWITCH Miniature Compact Limit Switches Features

Warranty/Remedy

Honeywell warrants products manufactured by it to be free from defects

in material and workmanship for the applicable warranty period.

Honeywell’s standard product warranty applies unless otherwise agreed to in writing by Honeywell;

For specific warranty details, refer to your order confirmation or consult your local sales office.

If the warranted product is returned to Honeywell during the warranty period,

Honeywell will, at its sole discretion, repair or replace, free of charge, the product that Honeywell deems

to be defective.

The foregoing is Buyer’s exclusive remedy and is in lieu of all other warranties, express or implied,

including the following warranties

merchantability and fitness for a particular purpose. In no event shall Honeywell be liable for

consequential, special or indirect damages.

Honeywell may provide application assistance in person, through our materials and through Honeywell

websites.

and Honeywell websites for application assistance, but it is the sole responsibility

of the buyer to determine the suitability of the product for the application.

Specifications are subject to change without notice.

As of this writing, the information we have provided is believed to be accurate and reliable.

However, Honeywell assumes no responsibility for its use.
April 9, 2026 BY
IN Honeywell

Honeywell 91MCE Series MICRO SWITCH

ORTFOLIO

The 91MCE series is part of the 14CE, 914CE, NGC, SZLVL-S, SSCE and SL1 series of miniature limit

switches.

Honeywell also offers a range of MICRO SWITCH heavy duty limit switches and general purpose limit

switches.

Features

– Direct-acting contacts designed to open NC contacts when touched

– Sealing class IP67; NEMA 1. 4. 12. 13 for outdoor applications

– CE, UKCA, cULus, CCC approvals meet most global certification requirements

– Nine actuator styles provide design flexibility

– Slow-action and fast-action circuit options

– Reserved cable and M12 connector options

– Mechanical life expectancy: 5 million operations

– Side exit (standard) and bottom exit connection options

Side outlet (standard) and bottom outlet connection options

– Mechanical equipment

– Material handling

– Aerial lift trucks

– Forklift trucks

– Off-road and outdoor equipment
April 9, 2026 BY
IN MOOG

MOOG The G123-814 emits emissions well below the levels required for CE marking testing

Electromagnetic compatibility

The G123-814 emits emissions well below the levels required for CE marking testing.

However, the cable connecting the valve coil should be shielded to ensure that no interfering radiation is

emitted.

Connect both ends of the shielded cable to chassis earth. Use terminals 10 and 14 on G123-814.

Immunity to external interference radiation depends on careful wiring techniques.

The recognised method is to use shielded cables for all connections, the

The accepted method is to use shielded cable for all connections and to radially terminate

the cable shield with a suitable grounded cable gland where it enters the industrial steel enclosure.

If this is not possible, chassis ground screw terminals are available on the G123-814.

The length of bare wire should be minimised. Connect the shield at each end of the cable to chassis

ground.

Allow sufficient length of cable

so that the wires remain connected when the circuit card is removed from the housing. 

This allows the circuitry to be checked while the circuit card is still connected and operational.

For cables connected to the outside of the housing as well as for

cables connected to the adjacent DIN rail unit, an additional 100 mm is sufficient.

The cable to the valve coil carries 1 Amp and should be sized accordingly.

Cables with a conductor size of 0.2 mm2 are normally rated at 1 Amp and are suitable for cable lengths

up to 5 metres.
April 9, 2026 BY
IN MOOG

MOOG Dual PWM Amplifier G123-814 Wiring

Cooling

Vents at the top and bottom of the G123-814 chassis provide cooling for internal electronic equipment. 

These vents should be kept clear.

It is important to ensure that the equipment below does not generate

hot exhaust gases that could heat the G123-814.

Wiring

It is recommended that crimped “guide lace sleeves” be used as screw terminals. 

Allow sufficient length of cable

so that the wires remain connected when the circuit card is removed from the housing. 

This allows the circuitry to be checked while the circuit card is still connected and operational.

For cables connected to the outside of the housing as well as for

cables connected to the adjacent DIN rail unit, an additional 100 mm is sufficient.

The cable to the valve coil carries 1 Amp and should be sized accordingly.

Cables with a conductor size of 0.2 mm2 are normally rated at 1 Amp and are suitable for cable lengths

up to 5 metres.
April 9, 2026 BY
IN MOOG

MOOG Dual PWM Amplifier G123-814 Applying this amplifier

Applying this amplifier

Apply this amplifier to other valves with the same specifications to obtain the same performance as

Hydrolux valves.

The G12-814 is not suitable for conventional open-loop proportional valve applications.

A zero flow condition is highly unlikely as the deadband compensation circuit cancels out spool overlap.

Zero flow conditions are unlikely with zero coil current as the deadband compensation circuit cancels out

spool overlap.

Mounting

Installation consists of mounting a horizontal DIN rail to the vertical rear surface of an industrial steel

enclosure.

The rail release clips on the G123-814 should face downward to allow front panel and terminal

markings to be clearly readable and to allow cooling airflow to the internal electronics.

An important consideration for module placement is electromagnetic interference (EMI) from other

equipment in the enclosure.

For example, VFs and AC servo drives generate high levels of EMI.

be sure to check other equipment for EMC compliance before placing it near the G123-814.

Cooling

Vents at the top and bottom of the G123-814 chassis provide cooling for internal electronic equipment. 

These vents should be kept clear.

It is important to ensure that the equipment below does not generate

hot exhaust gases that could heat the G123-814.

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