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 Mechanical locking systems quickly reach their limits and become a costly security risk if keys are lost or copied. This Simmons Voss Digital Locking and Access Control System offers a secure and efficient alternative. The System 3060 is comprised of locks, credentials, software and an optional communication network – which are controlled solely by radio frequency, without cables. Just press a button - and the door is unlocked. Every access is logged for later examination. The three most important benefits of the Simons-Voss lock over the other brands are the following: First: No extra door hole modification needed. This is a big time AND door saver. Second: extra high security card reader technology using a unique rolling code RFID system. Third: Extra long reading distance, usually out to three feet or more.
![These locks are battery powered](http://us.st11.yimg.com/us.st.yimg.com/I/853111_1826_1384468.jpg")
The SimonsVoss SV1C Digital Cylindrical Lock can be applied anywhere a standard
commercial cylindrical lock is used without additional holes or wires. The SV1C
allows the ability to easily grant user-specific access privileges with a few clicks
of the mouse button instead of physically grinding keys. The access privileges
may be removed even if the credential (transponder) is not available. Lost keys
no longer require re-keying the locks and, in the overlay mode, the use of a
new credential automatically replaces the previous credential. Lock options provide
the ability to record transactions, control access by time and date, and provide connection
to a wireless network.
Reduced installation cost:
Standard ANSI door preparation - no power supplies or external wiring needed. Usually as simple as taking the old lock off and replacing this new lock with no further door or frame modification!
Easily create a plan that uniquely grants access for each user.
Cable-free, wireless networking available.
Reduce operting costs:
Push the transponder button to engage the outside handle.
Easy to add authorized credentials.
Easy to remove authorization even when the credential is not available.
Easy to reconfigure access without installation modifications.
Reduce security risks:
Fully encrypted communications.
No keyway so no key so lock can't be picked or bumped open!
Access transactions can be recorded.
Eliminates the possibility of unauthorized keys.
All electronics are contained in the secured side handle!
Reduce intergration costs:
Extend the system beyond the door lock.
Features:
Replaces any standard ANSI/BHMA A156.2-1996 standard door handle.
ANSI Grade 1 standard lock.
Battery life exceeds 150,000 operations, over 7 years standby.
Each lock supports more than 8,000 transponders.
Overlay mode allows new transponder to automatically invalidate replaced
transponders.
Able to record the last 3,000 transponder actions.
Transponder authorizations may be modified by time of day and day of the week.
Product Versions available:
Available in three different handle styles: Castle (C), Manor (M), and Harbor (H).
Available in six different finishes: Satin Stainless Steel (630), Bright Stainless Steel
(629), Satin Brass (606), Bright Brass (605), Satin Nickel (619), and Satin Oil-Rubbed
Bronze (613).
A starter kit is also available for your first door which includes a digital cylindrical lock,
three transponders,, and a programming transponder or configuration tool (SmartCD)
and the software (LDB) needed to define and configure the lock and transponders.
Technical specifications:
Outputs: Lock Control, 2 Piezo sounder transducers.
Supply power: Two (2) CR2450 3 VDC batteries.
Communications: SimonsVoss B-Field RF link to transponders and wireless WaveNet
network interface.
Overall dimensions: 8 in x 8.1 in x 3.4 in (203 mm x 207 mm x 87 mm).
Weight: 3.4 lbs. (1.4 kg).
Operating temperature: -4°F to 140°F (-20°C to 60°C).
Storage temperature: -4°F to 158°F (-20°C to 70°C).
Humidity: <90% non-condensing.
Compliance standards: FCC Part 15, FCC ID: UUC-01, Canada: 6867A-01
1. Do I need both an RF Lock and a SmartRelay for a door?
No, the two components work independently of one another and have different tasks in the system. The RF Lock
operates a mechanical latch. The SmartRelay operates a solid-state relay. As a result, you need only one of
these components at a time.
2. Can the transmission of data over the radio link be tapped and reproduced?
The radio transmission is based on a method tested by the military. It is a constantly changing code sequence
(crypto codes), which is not reproducible. Even renowned test institutes such as VdS and BSI, for example,
couldn’t crack the code.
3. How is the system protected from attack?
The components are designed to resist mechanical, electrical and magnetic attacks.
4. What is involved in updating the LDB lock plan software to a new version?
Simply install the new version. The old software is automatically deleted and the existing lock plans remain
untouched by this.
5. What is the difference between active and passive transponder technology?
Active transponders have their own power supply (battery). Passive cards/chips, which do not have a battery,
must be supplied with energy by the reader or lock. Typically active tags have a longer range than passive tags.
6. Can I add a wireless network at a later date?
Yes, the system is designed to add components or the wireless network at any time.
7. Can the lock system be expanded at a later date?
Yes, the modular hardware components and the flexible lock plan software allow a modification or expansion of
existing systems at any time. As a maximum, a lock plan can cover up to 16,000 locks and 8,190 transponders.
8. Is it possible to load the lock plan into the SmartCD so that the programming and the read-out
can take place without a PC?
No. When programming, the SmartCD must always be connected to a PC or laptop on which the lock plan
software has been installed. As an alternate the lock plan can be loaded into a PDA running Windows Mobile
version 5 or later and SmartLSM. The PDA can be used to program the lock through a Bluetooth connection to the
SmartCD.
9. Which components must be programmed?
All components, transponders and locks, must be programmed.
10. How can the digital locking cylinder’s battery be checked?
The status of the battery can be displayed from the host computer through the SmartCD or wireless network.
11. Is it possible to set up a time zone in which the digital lock remains unlocked?
Yes, energy is only applied to change the state. No additional energy is applied to maintain either the locked or the
unlocked state.
12. Can the lock read HID cards?
No, that technology is passive and would not transmit through metal. However, a reader interface is being
developed
13. What happens when the battery dies?
There is a three-stage process of battery management that ensures authorized access. In all the years of operation
access has never been denied due to battery failure.
14. .Is there a mechanical override?
The cylindrical lock has no mechanical override. The deadbolt on the mortise lock functions as a mechanical
override.
15. Where is the lock made?
The electronic core is made in Germany. The metal parts are manufactured in various plants in the United States.
The lock is assembled in Franklin, Wisconsin
Frequently Asked Questions
16. What certifications does the lock have?
These products are certified by the FCC not to interfere with other RF-based products. The US RF Locks have all
been tested to ANSI Grade 1 standards. We are currently seeking certification from UL for 294 (security) and 10-C
(fire door).
17. Do you have a lock for a glass storefront door?
Not yet, but the SmartRelay can be used to control a magnetic lock.
18. Is there an RF Lock for the Von Duprin 99 crash bar?
No, but a crash bar solution is being developed.
19. How many transponders are supported by each RF lock?
Each RF Lock can support up to 8,000 transponders currently and will be upgradeable to 64,000 in the second half
of 2007.
20. What is the anticipated life of the batteries?
The batteries in the locks are certified for 100,000 cycles. The batteries in the standard transponders are certified
for 1,000,000 clicks.
21. When using the wireless network, what is the range between the Central Node (computer) and
the door?
The distance between each radio span (Central Node to Router or Lock Node or between routers) is a maximum of
150 feet. The distance is based on the RF environment and can be reduced by the surrounding materials.
22. What is the radio range for the signal between the Lock Node and the RF Lock?
The Lock Node must be located within 12” of the RF Lock. There is an optional external antenna for the Lock
Node to extend this range up to 16 feet.
23. What are the environmental ratings of your locks?
The operating temperature of the SimonsVoss RF Lock is rated for -4°F to 140°F at non-condensing humidity of
less than 90%.
24. How do I load my lock plan into my lock?
A SimonsVoss Technologies RF Lock or SmartRelay can be programmed through the SmartCD connected to the
computer through a USB cable. Alternately, you can load the lock plan into a PDA running Microsoft Windows 5 or
later and the SmartLSM software. The PDA communicates through Bluetooth to the SmartCD allowing you to
configure or monitor your locks from the PDA. Lastly if you have a WaveNet wireless network you can program the
SimonsVoss RF Lock over that network from your computer.
25. Can the lock detect the position of the door?
SimonsVoss Technologies RF locks do not include a traditional door status switch. This capability is not significant
to a standalone door with no real-time communications. When the 915 MHz wireless network is used, the Lock
Node can monitor up to three input points.
26. What is range between the SimonsVoss Technologies transponders and locks?
The maximum specified range is 20”. This distance is based on environmental elements such as the material of the
door, the walls, and other radio products in the area.
27. Is it possible to use the SimonsVoss Technologies locks with an existing third-party access
control system?
Yes, you can do this by using a Switching Transponder (TRA.SCHALT) which has wires that are connected in
parallel to the button of the transponder. These wires are then connected to the relay terminals of the third-party
access control panel. When the relay closes it activates the transponder just as if the button was pushed, opening
the SimonsVoss Technologies RF lock.
28. Can I use third-party access control cards with SimonsVoss Technologies locks?
This is not available, but a solution is currently in development
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Phone: 561 479-0498
Fax: 781 459-0498
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