As the cell phone is often used as an emergency communication device it would be useful to combine the cell phone with some sort of personal defense system such as a stun gun that made synergistic use of the battery and antenna of the phone. This has never been done. The patent of Cassarino U.S. Pat. No. 5,988,450 teaches a cell phone and various self-defense packages put together in one box with no synergistic communication. He includes pepper sprays and a taser. This teaches away from the instant invention. Similarly the patent of Julinot U.S. Pat. No. 5,476,192 teaches a pepper spray device disguised to look like a cell phone. This also teaches away from the instant invention.
a and 1b show a front and side view of the phone with the antenna collapsed.
A spring 20 to automatically deploy the antenna is shown in the speaker section. In an alternative embodiment, the antenna is slid down into the phone body with a linear spring. When the 911 button is pushed, it releases the antenna, which then slides out the end into a fully extended position when released.
In one embodiment, the whole phone is made waterproof through the use of waterproof switches, microphone, and speakers.
On the back of the phone pouch 30 is an attachment means. In the preferred embodiment this is shown as a Velcro® type of mechanism 32. Alternatively it could be suction cups for glass or adhesives for metal. Further alternatives would include magnets for metal. The Velcro® works particularly well for the roof cloth or floor carpeting of many cars. Yet another alternative attachment mechanism would be a combination of Velcro® and magnet for universal attachment as shown using the magnets 38 embedded in the pouch.
The pouch is transparent to make the phone contents very obvious in an emergency situation.
Due to the presence of dedicated integrated circuits the electronic portion of a conventional cellular phone design is doable by anyone skilled in the art of electrical engineering. The circuit in
Microphone 46 is coupled through capacitors 48 and 50 and resistors 52, 54, 56, and 58 into the audio controller 60. The audio controller then sends the “audio out” signal on line 64 into the RF section 66 for final transmission out on antenna 68. When the call button 16 is depressed the microprocessor microcontroller 70 interprets this and activates the appropriate sequences and the digital controller 72 would then give the appropriate controls to the audio controller 60. Digital controller 72 is clocked by a crystal oscillator comprising capacitors 74 and 76, crystal 78, and resistor 80.
All of the electronic components are powered by battery 76 through the power supply chip 74.
A representative audio controller is the TCM 8010 of Texas Instruments, P.O. Box 655303, Dallas, Tex. 75265. A representative RF section IC is the TRF 1015 from Texas Instruments. There are numerous manufacturers of microprocessors or microcontrollers. Sample devices are the 8051 or 8032 available from numerous electronic manufacturers. A representative of the digital controller is the TCM 8002 from Texas Instruments. Representative power supply ICs are the TPS9013 or the TPS9104, both of Texas Instruments.
The battery 76 is a permanently installed primary cell such as an alkaline, lithium, or manganese dioxide cell although many other types could work. The cell must provide high peak currents in transmission but otherwise is not required to have extremely high longevity. By having a permanent primary cell there is an economy over the use of an expensive rechargeable cell and also over the use of a changeable primary cell due to the expense of the battery holders chambers and doors. These battery holders, chambers, and doors for a battery chamber also introduce reliability problems. As an alternative embodiment the battery could be a fixed or removable thermal battery or any practical battery.
Microswitch 17 is activated by the antenna springing out and thus automatically turning on the device.
If the phone is not operated within 5 minutes of the “crash” then it automatically turns off to save battery life. Alternatively the phone could include a “hang-up” button which could also stop the flashing and pulsing.
Suitable acceleration sensors are available from Analog Devices of Norwich, Mass.
The provider (distributor) of the disposable emergency cellular phones will pay a monthly fee for a few phone numbers. Each of these phone numbers (mobile identification number [MIN]) comes with an electronic serial number (ESN) which will be transmitted with the MIN in order to register to the cellular system. (A conventional cellular phone also transmits its MIN and a unique ESN, which it registers. The ESN is unpublished and is matched with the phone to minimize fraudulent usage.) One feature of this invention is that thousands of the disposable emergency phones could share a small set of MINs and matching ESNs.
Assume that the average call requires 5 minutes. The table below gives the number of MINs required for a smoothed (average) load as a function of the number of subscribers. The last column gives the estimated number of MINs required to reduce waits as call volume will not be perfectly constant.
1 number of MINs needed for MINs needed to subscribers average load minimize waits 100 1 3 200 1 5 500 2 8 1,000 4 12 2,000 7 17 5,000 18 30 10,000 35 49 20,000 70 85 50,000 174 190 100,000 348 364 200,000 695 712 500,000 1,737 1,753 1,000,000 3,473 3,490 2,000,000 6,945 6,962 5,000,000 17,362 17,378 10,000,000 34,723 34,740
In operation, the first step is to wait for the 911 button depression 200. Step 202 is to register with a MIN and ESN. Step 204 is to verify that registration (log on) is established. If it is established then the method proceeds on to step 206 which is to transmit the 911 number. Then step 208 begins a timer. Finally, at step 210 the device will disable further transmissions when the timer reaches 60 minutes. In an alternative embodiment, a counter is used to limit the number of 911 calls to a small fixed number, say 5. The total talking time would then be limited only by the battery life and the patience of the 911 operators. If at step 204 registration was not established then the method proceeds to step 212, which is to verify that a carrier signal is present. If no carrier is detected then the method returns to step 202 to attempt registration again. If the carrier is detected then the method proceeds to step 214 and increments to the next MIN (phone number) and ESN (serial number). It then attempts another registration in step 216. The reason for the attempt for different numbers is that it is conceivable that two customers would both be trying to make a 911 call at the exact same time. Were that to occur, the first caller would normally lock out that number nationwide and prevent the second caller from getting through. Thus a disposable cellular phone provider would have a few numbers that a minimal monthly service fee is paid for. The system could try the MINs and ESNs (phone and serial numbers) in a fixed sequence or a random fashion.
Alternatively the phone could simply log on with a public phone number and transmit a 311 or 911 call since the FCC requires phone companies to accept 311 and 911 calls regardless of the account status.
There is a left side high (mechanical) resistance push button 310 to enable the flashlight. Also there is a right side push button 311 to enable the electrical stunning operation when used in conjunction with the switch 310. When the flashlight is enabled then the battery from the cell phone is connected to high intensity light bulb 312. When both switches 310 and 311 are enabled simultaneously a high voltage is developed between the pseudo antenna tip 314 and the tip of the normal antenna 316. The angle between the tips 314 and 316 is very important as it allows the shock to be delivered from the operator's right hand and angled to attack the arm or hand of an attacker without having to have a full perpendicular contact.
When both switches 311 and 310 are depressed then battery current is delivered to oscillator 324. Oscillator 324 provides an AC current to transformer 326 which develops a high voltage output which is rectified by diode 328 and stored in capacitor 330. In this way a voltage is built up to over 1000 volts on capacitor 330. When the voltage exceeds 1000 volts on capacitor 330 then the hermetically sealed spark gap 332 will break down and deliver a short intense current through transformer 334. The output of transformer 334 (of about 25,000 to 50,000 volts) will then appear between contacts 306 (which is the conventional antenna) and 314 which is the shocking probe “pseudo antenna.” The hermetically sealed spark gap 336 limits that voltage to prevent damage to the circuitry. The Zener diodes 337 serve to protect the cell phone circuitry from the effects of this high voltage and keep the antenna 306 closer to a ground potential.
This application is a continuation of Ser. No. 12/353,471, which is a continuation of Ser. No. 10/219,848 filed on Aug. 14, 2002 issuing as 7,483,715, which is a continuation-in-part of “Generic Number Cellular Telephone” Ser. No. 09/584,326 filed on May 30, 2000 issued as U.S. Pat. No. 6,580,908 which was a continuation-in-part of U.S. Ser. No. 08/895,358 filed Jul. 16, 1997, “Disposable Emergency Cellular Phone” now issued as U.S. Pat. No. 6,115,597.
Number | Name | Date | Kind |
---|---|---|---|
4486807 | Yanez | Dec 1984 | A |
5388603 | Bauer | Feb 1995 | A |
5429301 | Franks | Jul 1995 | A |
5476192 | Julinot | Dec 1995 | A |
5578992 | Harding | Nov 1996 | A |
5786546 | Simson | Jul 1998 | A |
5986872 | Chaput | Nov 1999 | A |
5988450 | Cassarino | Nov 1999 | A |
6044257 | Boling | Mar 2000 | A |
6052051 | Whalen | Apr 2000 | A |
Number | Date | Country | |
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20100323755 A1 | Dec 2010 | US |
Number | Date | Country | |
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Parent | 12353471 | Jan 2009 | US |
Child | 12868957 | US | |
Parent | 10219848 | Aug 2002 | US |
Child | 12353471 | US |
Number | Date | Country | |
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Parent | 09584326 | May 2000 | US |
Child | 10219848 | US | |
Parent | 08895358 | Jul 1997 | US |
Child | 09584326 | US |