EVVA MCS: Difference between revisions

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|lock_design=[[Magnetic lock|Magnetic]]
|lock_design=[[Magnetic lock|Magnetic]]
|years_produced=1975-Present
|years_produced=1975-Present
|patent=[http://www.google.com/patents?id=D6IyAAAAEBAJ US 4,084,416]
|patent=[https://patents.google.com/patent/US4084416A/ US 4,084,416]
}}
}}


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== Principles of operation ==
== Principles of operation ==


Main Locking Element (Magnetic Rotors)
===Main Locking Element (Magnetic Rotors)===
* There are 8 magnetic rotors, 4 on each side of the keyway
* There are 8 magnetic rotors, 4 on each side of the keyway [[File:Mcs_sidebar_wrong.jpg|50px]]
* Magnets in each rotor are Diametrically charged [[File:Diametric-magnet.jpg]]
* Magnets in each rotor are Diametrically charged [[File:Diametric-Magnet.jpg|50px]]
* A plate with one or more gates is glued to the magnet [[File:Mcs_magnet_rotors.jpg]]
* A plate with one or more gates is glued to the magnet [[File:Mcs_magnet_rotors.jpg|50px]]
* Inner sidebar has 3 fingers and outer sidebar has 1 finger/pin that interact with the rotor gates [[File:Mcs_plate_hooks.jpg]]
* Inner sidebar has 3 fingers and outer sidebar has 1 finger/pin that interact with the rotor gates [[File:Mcs_plate_hooks.jpg|50px]]
* Whole sidebar must slide fore (towards key bow) to align with milling in the bible.
* Whole sidebar must slide fore (towards key bow) [[File:Mcs_sidebar_open.jpg|50px]]
* When both sidebars are slid forward the core can then rotate
* To align with milling in the bible [[File:Mcs_cylinder_boring.jpg|50px]]
* When both sidebars are slid forward the core can then rotate.


Minor Locking Elements (Generation 1)
===Minor Locking Elements (Generation 1)===
* Gen 1 locks have 1 active ball bearing pin, this simply must be depressed to allow the core to turn, there is only 1 height.
* Gen 1 locks have 1 active ball bearing pin, this simply must be depressed to allow the core to turn, there is only 1 height.
* There are 12 passive ball bearings that will most often jam when an incorrect key is inserted. Occasionally these can also jam when under a picking attack, but they are less likely and need only a slight bump to be corrected.
* There are 12 passive ball bearings that will most often jam when an incorrect key is inserted. Occasionally these can also jam when under a picking attack, but they are less likely and need only a slight bump to be corrected.


Minor Locking Elements (Generation 2)
===Minor Locking Elements (Generation 2)===
* Gen 2 locks have the same active ball bearing pin, it is simply moved forward in the lock from Gen 1
* Gen 2 locks have the same active ball bearing pin, it is simply moved forward in the lock from Gen 1 [[File:Mcs_keyball_full.jpg|50px]]
* Gen 2 adds passive sliders (4 on top, 3 on bottom) [[File:Mcs_sliders.jpg]]
* Gen 2 adds passive sliders (4 on top, 3 on bottom) [[File:Mcs_sliders.jpg|50px]]
* Key has slider tracks on the top and bottom [[File:Mcs_profiles.jpg]]
* Key has slider tracks on the top and bottom [[File:Mcs_profiles.jpg|50px]]
* If sliders are incorrect they will jam the core not allowing magnetic sidebar to be tested. [[File:Mcs_sliders_partial.jpg|50px]]
* Once aligned core will rotate (until sidebar comes into play). [[File:Mcs_sliders_full.jpg|50px]]
* WARNING! Sliders can fall out of place once core is rotated if lock is more worn and a key is not in the lock.
 
 


<div align="center"><gallery>
<div align="center"><gallery>
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== Disassembly instructions ==
== Disassembly instructions ==


Generation 1 (1 active ball bearing, 12 passive ball bearings)
===Generation 1 (1 active ball bearing, 12 passive ball bearings)===
# Remove c-clip
# Remove c-clip
# Depress active ball bearing with a tool and slide core towards front
# Depress active ball bearing with a tool and slide core towards front
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## Rotors can be removed
## Rotors can be removed
## Repeat for other sidebar
## Repeat for other sidebar
# [https://www.youtube.com/watch?v=TkLsG-7DxbE Link to YouTube Video on Disassembly]
== Ratings ==
* [[EN_1303 |EN 1303:2015]]


== Vulnerabilities ==
== Vulnerabilities ==
Line 65: Line 78:
* [[Lockpicking]]
* [[Lockpicking]]
* [[Decoding]]
* [[Decoding]]
It is possible to decode this lock by moving the rotors individually to a known position and testing them against the 'fence'. Correct gates can be heard. A mems microphone is placed in the tip of the testing device. Rotors are manipulated via a transverse magnetic field. This tool was designed and made by Technical Entry in July 2016 (technicalentry.de). It works well but requires fine finger skills. Feedback is excellent. After the decoding procedure a MUK (make up key) is setup and the lock can be opened as necessary.


== Gallery ==
== Gallery ==
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[[Category:EVVA|MCS]]
[[Category:EVVA|MCS]]
[[Category:Lock models]]
[[Category:Magnetic locks]]
[[Category:Magnetic locks]]
[[Category:High security locks]]
[[Category:High security locks]]
[[Category:Sidebar locks]]
[[Category:Sidebar locks]]
[[Category:Slider locks]]
[[Category:EN 1303 locks]]
{{Stub}}
{{Stub}}

Latest revision as of 10:45, 18 June 2024

EVVA MCS

EVVA MCS
Mcs cylinder.jpg
Name EVVA MCS
Manufacturer EVVA
Lock Type Cylinder
Lock Design Magnetic
Year(s) Produced 1975-Present
Patent US 4,084,416


The MCS (or Magnetic Code System) is a magnetic lock made by EVVA. It is one of the few magnetic locks to gain widespread acceptance and is also considered one of the best mechanical locks in the world. The MCS has been sold under a variety of names, including IKON System M (DE) and Mottura MC (IT)[1].


Principles of operation

Main Locking Element (Magnetic Rotors)

  • There are 8 magnetic rotors, 4 on each side of the keyway Mcs sidebar wrong.jpg
  • Magnets in each rotor are Diametrically charged Diametric-Magnet.jpg
  • A plate with one or more gates is glued to the magnet Mcs magnet rotors.jpg
  • Inner sidebar has 3 fingers and outer sidebar has 1 finger/pin that interact with the rotor gates Mcs plate hooks.jpg
  • Whole sidebar must slide fore (towards key bow) Mcs sidebar open.jpg
  • To align with milling in the bible Mcs cylinder boring.jpg
  • When both sidebars are slid forward the core can then rotate.

Minor Locking Elements (Generation 1)

  • Gen 1 locks have 1 active ball bearing pin, this simply must be depressed to allow the core to turn, there is only 1 height.
  • There are 12 passive ball bearings that will most often jam when an incorrect key is inserted. Occasionally these can also jam when under a picking attack, but they are less likely and need only a slight bump to be corrected.

Minor Locking Elements (Generation 2)

  • Gen 2 locks have the same active ball bearing pin, it is simply moved forward in the lock from Gen 1 Mcs keyball full.jpg
  • Gen 2 adds passive sliders (4 on top, 3 on bottom) Mcs sliders.jpg
  • Key has slider tracks on the top and bottom Mcs profiles.jpg
  • If sliders are incorrect they will jam the core not allowing magnetic sidebar to be tested. Mcs sliders partial.jpg
  • Once aligned core will rotate (until sidebar comes into play). Mcs sliders full.jpg
  • WARNING! Sliders can fall out of place once core is rotated if lock is more worn and a key is not in the lock.


Disassembly instructions

Generation 1 (1 active ball bearing, 12 passive ball bearings)

  1. Remove c-clip
  2. Depress active ball bearing with a tool and slide core towards front
  3. Keep checking both ball bearing and gap towards the rear of plug as they will both get caught on the 3 passive pins and 1 active pin as plug moves forward
  4. Once plug is out:
    1. Remove split ring sidebar reset system
    2. Remove outer sidebar
    3. Use pliers or knife to snap out plastic sidebar spacer (WARNING! older locks the plastic can be quite brittle, likely it will crack, though cracked sidebar spacers can be repaired with superglue)
    4. Remove inner sidebar to then access the rotors
    5. Rotors can be removed
    6. Repeat for other sidebar
  5. Link to YouTube Video on Disassembly


Ratings


Vulnerabilities

The MCS is considered one of the best mechanical locks in the world.

Confirmed picking and decoding are possible on this lock using an audio attack for feedback.

It is vulnerable to one or more of the following:

It is possible to decode this lock by moving the rotors individually to a known position and testing them against the 'fence'. Correct gates can be heard. A mems microphone is placed in the tip of the testing device. Rotors are manipulated via a transverse magnetic field. This tool was designed and made by Technical Entry in July 2016 (technicalentry.de). It works well but requires fine finger skills. Feedback is excellent. After the decoding procedure a MUK (make up key) is setup and the lock can be opened as necessary.

Gallery

References

  1. PULFORD, Graham (2007). High Security Mechanical Locks: An Encyclopedic Reference. ISBN 0750684372.

See also


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