FESTO CPV10-GE-MP-8 Electrical Interface Module for Valve Terminal

パーティー CPV10-GE-MP-8 Valve Terminal Electrical インターフェースモジュール (注文番号. 18255)

The official model designation is CPV10-GE-MP-8, corresponding to Festo’s unique material order number 18255. It is a universal multi-pin electrical connection base for CPV10 series compact valve terminals.

製品概要

CPV10-GE-MP-8 is the standard multi-pin electrical interface module for Festo CPV10 compact valve terminals, serving as the electrical access component of the valve terminal system. It is compatible with CPV10-size valve slices and supports expansion of up to 8 solenoid valve slices. Equipped with a standard centralized D-Sub 25-pin connector, the module realizes power supply and control signal transmission for all valve positions via a single cable. Built-in reverse polarity protection and electrical isolation circuits are integrated. When combined with CPV10 valve slices and air circuit bases, a fully integrated valve terminal assembly is formed, drastically reducing on-site wiring workloads. It is widely adopted in pneumatic control applications for industrial automation including packaging machinery, マテリアルハンドリング, electronics manufacturing and automotive component assembly.

Breakdown of Model Code Segments

Per Festo’s official naming standard for CPV valve terminals, each segment of the model code is defined as follows:

CPV10: 製品シリーズ識別子, short for Compact Performance Valve, representing compact high-performance valve terminals of Size 10 (small valve terminal frame)

GE: Electrical interface type, General Electrical – universal parallel electrical interface supporting direct multi-pin connection control

MP: Interface form, Multi-Pin connector, factory-fitted with male D-Sub 25-pin connector

8: Maximum valve position capacity, supporting cascaded expansion of up to 8 solenoid valve slices

18255: Exclusive official Festo material order number for precise procurement

主要な技術仕様

Electrical Ratings

パラメータ項目	仕様	備考
定格動作電圧	DC 24V 卤10%	Standard industrial DC power supply
Max Current per Valve Coil	2あ	Independent output for each valve position
Total Maximum Load Current	8あ	Upper current limit for all valve positions combined
Electrical Connector	Male D-Sub 25-pin	Standard DB25 connector
電気的絶縁	Isolation between valve drive circuit and common ground	Optocoupler isolation protection
保護機能	Reverse power polarity protection, basic overcurrent protection	Prevents component burnout caused by incorrect wiring
制御モード	Parallel direct control with independent signal per valve position	Matches PLC digital output modules

機械式 & 環境パラメータ

パラメータ項目	仕様	備考
Maximum Compatible Valve Positions	8	Universal for all CPV10 series valve slices
取付タイプ	DIN 35mm rail mounting / wall mounting via side holes	DIN rail clip supplied as standard
Enclosure Rating	IP65 (after proper installation and full tightening)	一般的な産業環境に最適
正味重量	約. 151g	Interface module body only
動作周囲温度	-5℃ ~ +50℃	Non-condensing conditions
ストレージ & Transport Temperature	-20℃～+70℃
Corrosion Resistance Class	CRC 2 Moderate Corrosion Resistance	Meets requirements for indoor industrial applications
HSコード	85371090

Standard Built-in Functions & Factory Supply Scope

Onboard Standard Functions

25-pin Centralized Electrical Interface: Single DB25 connector handles control for 8 valves plus common power supply, greatly cutting on-site wiring volume
Reverse Polarity Protection Circuit: Avoids component damage if power supply polarity is reversed, improving fault tolerance during field wiring
Valve Position Status Indication Channel: Works with onboard LEDs on valve slices to visually display the switching status of each channel
Standardized Stackable Construction: Seamless assembly with CPV10 valve slices and air bases with integrated positioning slots
IP65 Rated Sealed Housing: Hermetic structural design resistant to dust, splashing water and typical industrial contaminants

Standard Accessories Included in Carton

DIN rail mounting fixing clip
Terminal end plate and sealing gasket for valve terminal
Stacking fixing screw assembly
Multilingual Quick Installation Guide
Product Certificate of Conformity

Compatible Components & 拡張機能

Supported Valve Slice Models

This interface is exclusively compatible with CPV10 series valve slices. Common matching models are listed below:

3/2-way valve slices: CPV10-M1H-2X3-GLS-M7

5/2-way valve slices: CPV10-M1H-5JS-M7, CPV10-M1H-5/3B-M7

5/3-way valve slices: CPV10-M1H-5/3G-M7, CPV10-M1H-5/3E-M7

Functional accessories: Pressure separator plates (for multi-pressure zone separation), blanking plates (for reserved expansion positions)

拡張機能

Supports cascading of up to 8 valve slices with mixed functional valve combinations

Enables 2~3 independent pressure air zones via separator plates

Blank blanking plates can be fitted to seal unused valve positions for future expansion

インストール & 配線仕様

Mechanical Installation Procedures

Base Fixing: Clip the interface module onto a standard 35mm DIN rail, or mount it to a wall via side mounting holes
Valve Slice Stacking: Slide CPV10 valve slices sequentially along the rail, align air sealing surfaces fully, then tighten end locking screws after stacking is complete
End Plate Sealing: Mount the terminal end plate and sealing gasket on the opposite end of the valve terminal; full tightening ensures overall IP65 protection
Air Tightness Inspection: Apply rated operating air pressure and check all stacking joints for air leakage; power-up only after confirming no leaks exist

Electrical Wiring Specifications

Connector Pin Definition: Standard male DB25 connector; ピン 1 = DC24V positive power supply, corresponding common pin = power supply negative, remaining pins correspond to control signals for valve positions 1 に 8 それぞれ
ケーブル要件: Shielded DB25 cables are recommended with single-end grounding of shielding layer; routing alongside high-voltage power cables in the same conduit is prohibited
電源要件: Front-end power supply must incorporate overcurrent protection; total load current shall not exceed the rated maximum of 8A
Wiring Prohibitions: Hot plugging/unplugging of the connector is forbidden; AC220V supply must never be connected to the interface; short-circuiting signal pins is not allowed

典型的なアプリケーションシナリオ

包装機械: Centralized control of pneumatic actuators for filling machines, labelers and bag-making equipment

マテリアルハンドリング: Integrated valve banks for sorting lines, conveyors and small loading/unloading manipulators

電子機器製造: Micro-cylinder control for SMT placement machines, insertion machines and test fixtures

Automotive Components: Pneumatic clamps and lifting actuators at assembly stations and inspection equipment

Light Industry Automation: Pneumatic control systems for food packaging and pharmaceutical filling equipment

Common Troubleshooting Matrix

故障現象	根本的な原因	Step-by-Step Remedial Actions
All valve slices fail to actuate	Missing power supply, poor connector contact, reversed power polarity	1. Measure power pins on DB25 connector to verify stable DC24V input
		2. Re-seat the connector and inspect bent, oxidized or retracted pins
		3. Verify power supply polarity and eliminate reverse connection issues
No output from single valve position	Defective corresponding pin, damaged valve slice, open signal wire	1. Measure voltage of matching control pin to confirm normal PLC signal output
		2. Swap adjacent valve slices to identify whether the fault lies in the interface or valve slice
		3. Inspect internal connector pins for cold solder joints or retraction
Front-end fuse blows repeatedly	Internal short circuit, breakdown of valve coil, excessive total load current	1. Remove all valve slices and test the interface alone for internal short circuits
		2. Install valve slices one by one to locate the shorted coil
		3. Calculate total load current to ensure it stays below the 8A rated limit
Spontaneous valve actuation / signal interference	Failed shielding, crosstalk from wiring, 過剰な電源リップル	1. Confirm reliable single-end grounding of shielded cables
		2. Separate control wiring from power cables and avoid shared cable ducts
		3. Measure power supply ripple and install filter power supply if necessary
Loss of enclosure protection, dust/water ingress internally	Dislodged sealing gaskets, loosely fastened end plate, under-tightened connector screws	1. Check full installation of sealing gaskets on stacking joints and end plate
		2. Fully tighten DB25 connector fixing screws for tight contact
		3. Replace aged/deformed gaskets to restore original IP rating

Operating Principle of Electrical Interface Modules for FESTO CPV10 Series Valve Terminals

The electrical interface module of CPV10 valve terminals serves as the electrical hub and access gateway for the entire valve terminal system. It fulfills five core functions: 配電, signal transfer, electrical isolation, fault protection and status indication, acting as the electrical bridge between external electrical control systems (PLC, relay cabinets) and internal solenoid valve slices of the valve terminal. Featuring a modular stacking design, the module automatically completes electrical and air circuit docking during mechanical assembly with valve slices without secondary internal wiring, ultimately realizing electro-pneumatic conversion control: electrical signal input → pneumatic signal output.

Overall Structure & Core Composition

Taking the widely used CPV10-GE-MP-8 (multi-pin parallel interface, Order No.18255) as the representative model, the electrical interface module internally integrates four functional circuit groups housed entirely within a sealed enclosure, achieving IP65 protection after full assembly:

電源入力 & distribution circuit
Signal isolation & drive circuit
Electrical protection circuit
Status indication circuit

The left side of the module hosts the external electrical port (standard DB25 multi-pin connector), while the right side features the internal stacking interface (integrated pin header + air sealing surface). When stacked with CPV10 valve slices, electrical contacts and air channels are mated and locked simultaneously to achieve mechatronic integration.

Operating Principle of Sub-Modules
電源入力 & Distribution Circuit

Input Preprocessing: External industrial DC24V power enters the module via the multi-pin connector and first passes through a preprocessing unit consisting of reverse polarity protection and EMI filter circuits. These suppress surge and ripple interference on power lines and prevent burnout of internal components and valve coils caused by wiring errors at the source.

Dual-Branch Power Distribution: Filtered power is split into two independent branches to separate load power and logic power supply:

Load Power Branch: Internal copper busbars parallel-feed the DC24V common rail to the common terminals of all solenoid valve coils to provide drive power. The total circuit supports a maximum current of 8A with a 2A single-channel limit.

論理 & Indicator Power Branch: Regulated power supplies internal status LEDs and isolation devices with ultra-low power consumption that does not occupy the load current budget.

Control Signal Transmission & Drive Principle

The parallel multi-pin interface adopts a direct hardwired drive + electrical isolation control logic without protocol conversion, delivering millisecond-level valve response speed:

Signal Input: Each DC24V digital control signal output by the PLC is fed into the module via the corresponding pin of the multi-pin connector. Pins correspond one-to-one with valve positions, enabling control of all valves through a single cable.
電気的絶縁: Every control signal passes through an optocoupler for physical electrical separation. This prevents reverse damage to PLC output channels from field surges and crosstalk while suppressing industrial electromagnetic interference for stable control performance.
Coil Drive: Isolated control signals trigger power switching transistors to close the power supply loop for the corresponding valve coil. Energized coils generate electromagnetic force to actuate pilot spools inside valve slices, which in turn shift main spools to switch air circuit paths and complete electro-pneumatic conversion.
Energy-Saving Hold Circuit: An integrated current attenuation circuit supplies full pull-in current to the coil for reliable spool shifting during energization. Once the spool reaches its target position, holding current is automatically reduced to lower coil heat generation, extend service life and cut overall power consumption without compromising pull-in stability.
Multi-Layer Electrical Protection Mechanisms

Full-link protection circuits are integrated to cover common on-site risks including miswiring, overload and interference:

Reverse Polarity Protection: The anti-reverse circuit automatically cuts off current flow if power supply polarity is reversed, protecting all components from damage; normal operation resumes after wiring correction.

過電流 & 短絡保護: The main circuit features current limiting. Short-circuit of a single valve coil will not burn the entire interface module. Advanced variants include channel-by-channel overcurrent protection to ensure single-channel faults do not disrupt operation of other valve positions.

Overvoltage Suppression: Built-in TVS transient voltage suppressors absorb peak surge voltages on power lines to shield internal circuits and valve coils from voltage spikes.

EMC Protection: Combined full shielding housing and filter circuits comply with industrial EMC standards for stable operation under heavy electromagnetic interference.

Status Indication Principle

Paired with onboard LEDs on valve slices, the module delivers visual status feedback for every valve channel:

Indicator LEDs are wired in parallel with matching valve coils and light up synchronously when coils are energized, intuitively displaying on/off valve status for rapid on-site troubleshooting without multimeters.

LEDs are powered by post-isolation circuits and fully isolated from external control loops to avoid impact on control signal stability and precision.

Ⅲ. Electrical Interconnection Principle of Modular Stacking

CPV10 series adopts a side-insert stacking structure enabling seamless electrical interconnection between the electrical interface module and valve slices, and between adjacent valve slices via integrated side connectors:

During stacking, male pin headers on valve slice sides precisely insert into female sockets of neighboring modules, automatically mating the common power rail, control signal lines and air channels without secondary internal wiring.
Dedicated sealing gaskets are fitted on stacking joints. Tightening end locking screws achieves overall IP65 protection and prevents dust and splash water from penetrating internal electrical circuits.
This design supports flexible configuration of 2~8 valve positions. Valve slices can be added or removed at any time without modifying external wiring, minimizing expansion and maintenance costs.
Principle Differences Between Various Electrical Interface Types

Multiple electrical interface options are available for CPV10 series with distinct core principles and applicable scenarios as shown below:

インターフェースの種類	Core Operating Principle	Typical Model Features	アプリケーションシナリオ
Multi-Pin Parallel Interface (MP)	Direct hardwired drive with optocoupler isolation, no protocol conversion	Centralized DB25 connector, 簡単な配線, 低コスト	Installations with few I/O points, concentrated wiring and demand for ultra-fast response
Fieldbus Interface	Embedded bus protocol IC decodes bus signals into multi-channel valve control signals with comprehensive diagnostic support	Supports AS-i, Profibus and other fieldbuses, enables remote diagnostics	Automated production lines with numerous I/O points, dispersed wiring and centralized maintenance requirements
Terminal Separate Wiring Interface	Independent terminal wiring per channel without centralized connector	Discrete single-channel terminals with high adaptability	Retrofit projects and non-standard customized equipment requiring separate wiring for each valve

Complete End-to-End Operating Flow (From Command to Mechanical Actuation)

Taking PLC control of cylinder extension as an example, the full working sequence is outlined below:

The PLC output channel transmits a DC24V switching signal to the CPV10 electrical interface module via a shielded multi-pin cable.
The signal undergoes optocoupler isolation and power amplification inside the module to close the power supply circuit for the corresponding valve coil.
Energization of the valve coil actuates the internal pilot spool to shift, directing compressed air into the main spool drive chamber and switching the air path of the main spool.
Compressed air flows out from the valve slice outlet through tubing into the rodless chamber of the cylinder, pushing the piston rod to extend and complete the target control action.
The LED indicator on the valve slice lights up simultaneously to visually feedback that the valve position is energized.
When the PLC withdraws the control signal, the valve coil de-energizes. The spool resets under return spring force, the air circuit switches back, and the cylinder piston rod retracts.