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Honeywell Voice Dialer Remote Home Monitoring System Special Deal

Item # HSK211K

This product has been discontinued.

View all Honeywell products

Product Description

NEW Volume Discounting! Discounts are now offered for purchases including 4 or more HSK211K Kits. In the drop-down box, select the appropriate Volume Discount level, and adjust the numerical quantity box to your desired quantity before hitting BUY.

Special Deal! the HSK211K now includes Two Flood Detectors and Two Freeze Detectors

The Honeywell Voice Dialer Remote Home Monitoring System will call you at up to two user assigned numbers in the event of an alarm. The ideal application for this system is in a vacation home where you want to be alerted in the event of a power failure, conditions of freezing, flooding, or carbon monixide.

Overview

The system is easy to install and easy to program (use either the included PC software, or program the system at the panel itself by following the voice prompts). Expand the system to accommodate additional lighting modules, appliance modules, and security sensors.

Includes:
  • One Control Panel
  • One PC Upgrade Kit
  • Two Freeze Detectors
  • Two Flood Detectors
  • One Transformer / Powerline Interface
  • One Telephone Connection Cable
  • One Mounting Kit
  • One Owner's Manual
  • Bonus! One FREE Honeywell Yard Sign
*Batteries Not Included in Any Honeywell Battery Operated Products
Motion Detectors Require AA Batteries

Features:
  • X10 Compatible
  • Monitors for power failure, flooding, freezing, carbon monixide.
  • Features an audible alarm that is activated (when armed) if security is breached or on command.
  • Includes a dialer that can deliver a voice message to two designated numbers in response to an alarm.
  • Provides audible messages to guide programming and to announce the location of a triggered sensor.
  • Supports a Keychain Remote Control device that lets you arm or disarm its security system from outside or inside your home.
  • Responds instantly with an audible alarm when the emergency button on the Keychain device is pressed.
  • Provides a Latchkey service that delivers a voice message to two designated numbers if the home security access code has not been entered before a specified time.
  • Responds to an electric power failure by delivering a voice message to two designated numbers.
  • You can add up to 16 sensors and up to 8 control units as well as an unlimited number of lighting modules, appliance modules, and remote sirens.

FAQ

Honeywell Security Frequently Asked Questions

1. Is the Honeywell System compatible with the X10 system?
The Honeywell system is only compatible with X10 powerline equipment like light switches/modules.

2. Does the Fresnel PIR 998 work with Honeywell HSK200CP?
At this time no motion sensor is compatible with the Honeywell System.

3. How do I stop the system from calling me remotely?
There is no way to disarm the panel remotely by phone; you must use the control panel, keychain or keypad.

4. Can I arm and disarm the system with the Keychain Remote?
The Honeywell system can be armed and disarmed with the keychain remote.

5. Can I arm & disarm with the Handheld Remote?
The Honeywell system can be armed and disarmed with the handheld remote.

6. What is the range of the keychain Remote?
The range of the keychain remote is approximately 500 feet.

7. Can I program lights to operate to a time schedule without using a PC to program the panel?
Yes unto 8 modules can be programmed with out the PC. With the PC a total of 16 modules can be programmed

8. Does the Keychain have a Panic alarm?
Although the keychain has a panic button it only would flash lights and trip the main control panel siren. The panic button would not trip the plug in or wired siren or dial out the programmed numbers.

9. What action triggers the "Emergency" Response?
The following items would trigger an Emergency response: Keychain emergency button, Freeze sensor, Flood sensor, smoke detector and carbon monoxide.

10. When I load the software I get an error message regarding HACK component program. What is this and how do I correct it?
Most of the time this can be corrected by uninstalling and reinstalling from the Honeywell uninstall menu. If you use the Windows add/remove programs problems would occur.

11. What is the expected battery life for the Sensors?
The Expected Battery life of a Honeywell sensor is 6 months to 1 year depending on the usage. All sensors should be checked once a month by pressing the system status button.

12. Are there motion detectors available?
At this time no motion sensor is compatible with the Honeywell System.

13. Will the Honeywell system work with ME, 2000, and XP?
The Honeywell system software works with Windows 95, 98se, and ME. There is varied results with Windows 2000 and XP most times is can be uninstalled and reinstalled to fix the problem.

14. Are the Honeywell modules (HSA111) compatible with the X10 controllers and activehome CM11A interface?
Yes Honeywell plug-in modules are 100% compatible with X10 products

15. On the Honeywell Home Security System, how many sensors can be controlled by the system?
You can add up to 16 sensors and up to 8 control units as well as an unlimited number of lighting modules, appliance modules, and remote sirens.

16. Can you also suggest a glass break sensor that is compatible?
You can use a SR5150W universal glass break sensor with a door and window sensors to create a glass break senor.

17. Will the X-10 Motion Interface work with Honeywell Systems?
At this time no motion sensor is compatible with the Honeywell System.

SmartHomeUSA Tech support: 631-361-8609

More Info

How X10 Works


X10 communicates between transmitters and receivers by sending and receiving signals over the power line wiring. These signals involve short RF bursts which represent digital information.

X10 transmissions are synchronized to the zero crossing point of the AC power line. The goal should be to transmit as close to the zero crossing point as possible, but certainly within 200 microseconds of the zero crossing point. The PSC05 provides a 60 Hz square wave with a maximum delay of 100 µsec from the zero crossing point of the AC power line. The maximum delay between signal envelope input and 120 kHz output bursts is 50 µsec. Therefore, it should be arranged that outputs to the PSC05 be within 50 µs of this 60 Hz zero crossing reference square wave. .
.
A Binary 1 is represented by a 1 millisecond burst of 120 kHz at the zero crossing point, and a Binary 0 by the absence of 120 kHz. The PSC05 modulates its input (from the O.E.M.) with 120 kHz, therefore only the 1 ms "envelope" need be applied to its input. These 1 millisecond bursts should equally be transmitted three times to coincide with the zero crossing point of all three phases in a three phase distribution system. Figure 1 shows the timing relationship of these bursts relative to zero crossing. .
. .
A complete code transmission encompasses eleven cycles of the power line. The first two cycles represent a Start Code. The next four cycles represent the House Code and the last five cycles represent either the Number Code (1 thru 16) or a Function Code (On, Off, etc.). This complete block, (Start Code, House Code, Key Code) should always be transmitted in groups of 2 with 3 power line cycles between each group of 2 codes. Bright and dim are exceptions to this rule and should be transmitted continuously (at least twice) with no gaps between codes. See Figure 2. .
. Within each block of data, each four or five bit code should be transmitted in true compliment form on alternate half cycles of the power line. I.E. if a 1 millisecond burst of signal is transmitted on one half cycle (binary 1) then no signal should be transmitted on the next cycle, (binary 0). See Figure 3.

The Tables in Figure 4 show the binary codes to be transmitted for each House Code and Key Code. The Start Code is always 1110 which is a unique code and is the only code which does not follow the true complimentary relationship on alternate half cycles. .

.
[1] Hail Request is transmitted to see if there are any X10 transmitters within listening range. This allows the O.E.M. to assign a different Housecode if a "Hail Acknowledge" is received.

[2] In a Pre-Set Dim instruction, the D8 bit represents the Most Significant Bit of the level and H1, H2, H4 and H8 bits represent the Least Significant Bits.

[3] The Extended Data code is followed by 8 bit bytes which can represent Analog Data (after A to D conversion). There should be no gaps between the Extended Data code and the actual data, and no gaps between data bytes. The first 8 bit byte can be used to say how many bytes of data will follow. If gaps are left between data bytes, these codes could be received by X10 modules causing erroneous operation.

Extended Code is similar to Extended Data: 8 Bit bytes which follow Extended Code (with no gaps) can represent additional codes. This allows the designer to expand beyond the 256 codes presently available. .


NOTE 1 . X10 Receiver Modules require a "silence" of at least 3 power cycles between each pair of 11 bit code transmissions (no gaps between each pair). The one exception to this rule is bright and dim codes. These are transmitted continuously with no gaps between each 11 bit dim code or 11 bit bright code. A 3 cycle gap is necessary between different codes, i.e. between bright and dim, or 1 and dim, or on and bright, etc.

NOTE 2. The PSC05 Two-Way Power Line Interface cannot receive Extended Code or Extended Data because these codes have no gaps between them. The PSC05 can only receive standard "pairs" of 11 bit X10 codes with 3 power line cycle gaps between each pair.

NOTE 3. The PSC05 can receive dim and bright codes but the output will represent the first dim or bright code received, followed by every third code received. i.e. the output from the PSC05 will not be a continuous stream of dim and bright codes like the codes which are transmitted.


A Square wave representing zero crossing detect is provided by the PSC05 and is within 100 &s of the zero crossing point of the AC power line. The output signal envelope from the O.E.M. should be within 50 &s of this zero crossing detect. The signal envelope should be 1 ms (-50µs +100µs). See Figure 5. .
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Opto-Coupled 60 Hz reference output (from the PSC05)
Transmissions are to be synchronized to the zero crossing point of the AC power line and should be as close to true zero crossing as possible. The PSC05 is designed to be interfaced to other microprocessor circuitry which outputs X10 codes synchronized to the zero crossing point of the AC power line. It is therefore necessary to provide a zero crossing reference for the O.E.M. microprocessor.

It is likely that this microprocessor will have its own "isolated" power supply. It is necessary to maintain this isolation, therefore the trigger circuit normally used in X10 controllers is not desirable as this would reference the O.E.M. power supply to the AC power line. It is also not desirable to take the trigger from the secondary side of the power supply transformer as some phase shift is likely to occur. It is therefore necessary to provide an opto-coupled 60 Hz reference.

An opto-coupled 60 Hz square wave is provided at the output of the PSC05. X10 codes generated by the O.E.M. product are to be synchronized to this zero crossing reference. The X10 code envelope generated by the O.E.M. is applied to the PSC05 which modulates the envelope with 120 kHz and capacitively couples it to the AC power line.

Opto-Coupled Signal Input (to the PSC05)

The input signal required from the O.E.M. product is the signal "envelope" of the X10 code format, i.e.

High for 1 ms. coincident with zero crossing represents a binary "1" and gates the 120 kHz oscillator through to the output drive circuit thus transmitting 120 kHz onto the AC power line for 1 ms.

Low for 1 ms. coincident with the zero crossing point represents a binary "0" and turns the 120 kHz oscillator/output circuit off for the duration of the 1 ms. input. .

.
Opto-Coupled Signal Output (from the PSC05)

The "X10 received" output from the PSC05 coincides with the second half of each X10 transmission. This output is the envelope of the bursts of 120 kHz received. Only the envelope corresponding to the first burst of each group of 3 bursts is available at the output of the PSC05. See Figures 6, 7, and 8. .


Source: X10 WorldWideWeb pages


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