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**Cetop 10 (NG32) Two Stage Type High Speed – LSVHG-10 (With Fail-Safe**) – High-speed linear servo valves have outstanding features of high response and exceptional contamination resistance.

These features are achieved by the compact and powerful linear motor which directly drives the spool and gives electric

feedback of the spool position. These valves have garnered an excellent reputation since their launch by Yuken in 2001.

Direct type LSVG-03 and two stage type LSVHG-04/06/10(which use the LSVG-03 as a pilot) are available. **Cetop 10 (NG32) Two Stage Type High Speed – LSVHG-10 (With Fail-Safe**). For other products visit Products

Yuken: **Hydraulic specialist** and its products are recognised as an industry leading brand, utilised in various regular and specialist applications around the world.

We supply standard, off-the-shelf products but at Yuken, we will always go the extra mile to understand your needs and provide **Hydraulic solutions, **which will allow you to meet the increasingly tough challenges that we all face.

Our company dates back to 1929 in Japan and in 1980 Yuken Europe Ltd. was founded. During this time Yuken: **Hydraulic specialist** has accumulated a wealth of practical and technical expertise and our enduring success lies in the fact that our history is filled with examples of how we have met and exceeded the needs of machine and system builders.

Yuken:**hydraulic specialist** also design and build new devices for customers on a bespoke basis.

Our **Hydraulic products** are used by original equipment manufacturers operating in a diverse variety of sectors including shipping, construction, subsea operations, chocolate-makers and contact lens manufacturing equipment.

The demanding requirements of those machine, system builders and **hydraulic power pack**, who need improved productivity, and performance to gain technical edges over their competition, means that we have built ourselves a reputation for quality and cutting edge innovation and design, developing a range of products which will enhance any system they are used in.

As industries evolve, there are always new and exciting technical challenges to meet and Yuken’s pro-active approach ensures that we will remain at the forefront of being a solutions provider.

Yuken:**Hydraulic Specialis**t revolutionary innovations include:

- Developing proportional valve technology
- Our “K” series low surge coils
- On Board
**Electronic Proportional control for pumps and valves** - Electronic controlled units for energy saving

Rated Flow at ?P = 70 Bar | 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM), 3800 – (3800 LPM) |
---|---|

Spool Type | 2 – (All Ports Closed – 10% Overlap), 2 – (All Ports Closed – 10% Overlap), 2 – (All Ports Closed – 10% Overlap), 2 – (All Ports Closed – 10% Overlap), 2 – (All Ports Closed – 10% Overlap), 2 – (All Ports Closed – 10% Overlap), 2 – (All Ports Closed – 10% Overlap), 2 – (All Ports Closed – 10% Overlap), 2 – (All Ports Closed – 10% Overlap), 2 – (All Ports Closed – 10% Overlap), 2 – (All Ports Closed – 10% Overlap), 2 – (All Ports Closed – 10% Overlap), 40 – (Open Centre / A-B&T), 40 – (Open Centre / A-B&T), 40 – (Open Centre / A-B&T), 40 – (Open Centre / A-B&T), 40 – (Open Centre / A-B&T), 40 – (Open Centre / A-B&T), 40 – (Open Centre / A-B&T), 40 – (Open Centre / A-B&T), 40 – (Open Centre / A-B&T), 40 – (Open Centre / A-B&T), 40 – (Open Centre / A-B&T), 2P – (Zero Lap – Dual Flow Gain), 2P – (Zero Lap – Dual Flow Gain), 2P – (Zero Lap – Dual Flow Gain), 2P – (Zero Lap – Dual Flow Gain), 2P – (Zero Lap – Dual Flow Gain), 2P – (Zero Lap – Dual Flow Gain), 2P – (Zero Lap – Dual Flow Gain), 2P – (Zero Lap – Dual Flow Gain), 2P – (Zero Lap – Dual Flow Gain), 2P – (Zero Lap – Dual Flow Gain), 2P – (Zero Lap – Dual Flow Gain), 2P – (Zero Lap – Dual Flow Gain), 2 – (All Ports Closed – 10% Overlap), 2 – (All Ports Closed – 10% Overlap), 2 – (All Ports Closed – 10% Overlap), 2 – (All Ports Closed – 10% Overlap), 2 – (All Ports Closed – 10% Overlap), 2 – (All Ports Closed – 10% Overlap), 2 – (All Ports Closed – 10% Overlap), 2 – (All Ports Closed – 10% Overlap), 2 – (All Ports Closed – 10% Overlap), 2 – (All Ports Closed – 10% Overlap), 2 – (All Ports Closed – 10% Overlap), 2 – (All Ports Closed – 10% Overlap), 40 – (Open Centre / A-B&T), 40 – (Open Centre / A-B&T), 40 – (Open Centre / A-B&T), 40 – (Open Centre / A-B&T), 40 – (Open Centre / A-B&T), 40 – (Open Centre / A-B&T), 40 – (Open Centre / A-B&T), 40 – (Open Centre / A-B&T), 40 – (Open Centre / A-B&T), 40 – (Open Centre / A-B&T), 40 – (Open Centre / A-B&T), 40 – (Open Centre / A-B&T), 2P – (Zero Lap – Dual Flow Gain), 2P – (Zero Lap – Dual Flow Gain), 2P – (Zero Lap – Dual Flow Gain), 2P – (Zero Lap – Dual Flow Gain), 2P – (Zero Lap – Dual Flow Gain), 2P – (Zero Lap – Dual Flow Gain), 2P – (Zero Lap – Dual Flow Gain), 2P – (Zero Lap – Dual Flow Gain), 2P – (Zero Lap – Dual Flow Gain), 2P – (Zero Lap – Dual Flow Gain), 2P – (Zero Lap – Dual Flow Gain), 2P – (Zero Lap – Dual Flow Gain) |

Pilot connection | None – (Internal Pilot), None – (Internal Pilot), E – (External Pilot), E – (External Pilot), None – (Internal Pilot), None – (Internal Pilot), E – (External Pilot), E – (External Pilot), None – (Internal Pilot), None – (Internal Pilot), E – (External Pilot), E – (External Pilot), None – (Internal Pilot), None – (Internal Pilot), E – (External Pilot), E – (External Pilot), None – (Internal Pilot), None – (Internal Pilot), E – (External Pilot), E – (External Pilot), None – (Internal Pilot), None – (Internal Pilot), E – (External Pilot), None – (Internal Pilot), None – (Internal Pilot), E – (External Pilot), E – (External Pilot), None – (Internal Pilot), None – (Internal Pilot), E – (External Pilot), E – (External Pilot), None – (Internal Pilot), None – (Internal Pilot), E – (External Pilot), E – (External Pilot), None – (Internal Pilot), None – (Internal Pilot), E – (External Pilot), E – (External Pilot), None – (Internal Pilot), None – (Internal Pilot), E – (External Pilot), E – (External Pilot), None – (Internal Pilot), None – (Internal Pilot), E – (External Pilot), E – (External Pilot), None – (Internal Pilot), None – (Internal Pilot), E – (External Pilot), E – (External Pilot), None – (Internal Pilot), None – (Internal Pilot), E – (External Pilot), E – (External Pilot), None – (Internal Pilot), None – (Internal Pilot), E – (External Pilot), E – (External Pilot), None – (Internal Pilot), None – (Internal Pilot), E – (External Pilot), E – (External Pilot), None – (Internal Pilot), None – (Internal Pilot), E – (External Pilot), E – (External Pilot), None – (Internal Pilot), None – (Internal Pilot), E – (External Pilot), E – (External Pilot) |

Drain Connection | None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain), None – (External Drain), T – (Intenal Drain) |

Cable Departure Direction | None – (Upper – Standard), None – (Upper – Standard), None – (Upper – Standard), None – (Upper – Standard), R – (Right), R – (Right), R – (Right), R – (Right), L – (Left), L – (Left), L – (Left), L – (Left), None – (Upper – Standard), None – (Upper – Standard), None – (Upper – Standard), None – (Upper – Standard), R – (Right), R – (Right), R – (Right), R – (Right), L – (Left), L – (Left), L – (Left), None – (Upper – Standard), None – (Upper – Standard), None – (Upper – Standard), None – (Upper – Standard), R – (Right), R – (Right), R – (Right), R – (Right), L – (Left), L – (Left), L – (Left), L – (Left), None – (Upper – Standard), None – (Upper – Standard), None – (Upper – Standard), None – (Upper – Standard), R – (Right), R – (Right), R – (Right), R – (Right), L – (Left), L – (Left), L – (Left), L – (Left), None – (Upper – Standard), None – (Upper – Standard), None – (Upper – Standard), None – (Upper – Standard), R – (Right), R – (Right), R – (Right), R – (Right), L – (Left), L – (Left), L – (Left), L – (Left), None – (Upper – Standard), None – (Upper – Standard), None – (Upper – Standard), None – (Upper – Standard), R – (Right), R – (Right), R – (Right), R – (Right), L – (Left), L – (Left), L – (Left), L – (Left) |

Fail-Safe Function | None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), None – (P-B/A-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T), A – (P-A/B-T) |