DIGITAL SQUIB
CROSS REFERENCE TO RELATED APPLICATIONS [0001] This application claims the benefit and priority of U.S. Provisional patent application Serial No. 60/563,670 filed April 19, 2004 entitled DIGITAL SQUIB, the entire disclosure of which is incorporated herein by reference.
BACKGROUND OF THE INVENTION [0002] The present invention relates to squibs and, more particularly, to electronically controlled digital squibs. Squibs are electrical switches with a built-in, ultrasecure mechanism to prevent accidental turn on of the switch. [0003] Rockets, missiles, space platforms, drilling equipment, remote robotic controls and the like, have triggerable systems or devices which, when triggered or launched, result in significant events that cannot be easily reversed or stopped. Therefore, very elaborate steps are taken in the design of squibs to assure foolproof operation without any chance for accidental triggering of the switching device. [0004] Conventional squibs are expensive, elaborate and electromechanical, as well as chemical, devices which sometimes include explosive components that destroy a trigger prevention protector when it is decided that the squib is to be enabled. It would be advantageous to obtain a squib that avoids the drawbacks of conventional squibs, including relative to the complexity, construction and cost thereof and obtain a squib with enhanced programmability and versatility features.
SUMMARY OF THE INVENTION [0005] It is an object of the present invention to provide a squib that is not pyrotechnically operable, can be safely reset to its initial state, and comprises programmable timing for turning on, i.e. "firing". [0006] Another object of the invention is to provide an electronically controlled squib. [0007] The foregoing and many other objects of the invention are realized with an electronic squib which incorporates several levels of protection such as to meet the requirements and specifications for conventional squibs, that are typically utilized in providing power to sensitive equipment, such as missiles, rockets, space platforms, drilling equipment, remote robotic controls and the like. [0008] Essentially, the intelligent squib of the present invention comprises a pair of serially connected power switches which are separately and sequentially enabled and which will not deliver power from their input to their outputs unless both switches turn on. These switches are controlled by an electronic microcontroller that is normally left unpowered, except when a trigger input (VOLTAGE) is temporarily applied to the microcontroller, which then begins its operation by enabling the first of the pair of series switches and at the same time, becomes electrically powered from the enablement of the first switch. [0009] Other features and advantages of the present invention will become apparent from the following description of the invention which, refers to the accompanying drawings.
BRIEF DESCRIPTION OF THE DRAWINGS [0010] Figure 1 is a mechanical drawing of the digital squib of the present invention. [0011] Figures 2a and 2b are circuit diagrams of the digital squib of the present invention, with Figure 2b representing the continuation of Figure 2a. [0012] Figure 3 is a block diagram of the digital squib of the present invention. DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS OF THE INVENTION [0013] Figure 1 illustrates the layout and dimensional sizes, as well as pin assignment for an intelligent, digital squib constructed in accordance with one PCB (printed circuit board) layout thereof, although it should be appreciated that the varieties and possibilities for the layout of the device is virtually infinite. Nonetheless, and in accordance with Figure 1, there is illustrated a dual inline package which utilizes 16 pins. [0014] Turning to Figure 2, it is noted that the main component of the squib comprises the microcontroller denominated as integrated circuit (IC) U2 wliich can preferably be a PIC12F6291(E)SN device. The main power switches are denominated as IPSl and IPS3 and each preferably comprises an IPS521G FET switch. [0015] The operational concept of the intelligent squib of Figure 2 can be appreciated from the following generalized description of the illustrated circuit. Thus, when a momentary poλver pulse is applied as a signal switch power at PIN 16 (or PESf 15), the power flows through the diode Dl to the Ul integrated circuit which produces a power supply voltage of 5v at 50ma, at the power input PIN 1 (VCC) of the microcontroller U2. If the protect signal at PIN 6 is in a state that does not disable the microcontroller U2, it issues a first enabling signal to the IPSl FET as a signal EN 1. This causes the FET Sλvitch IPSl to close (turn on), providing an output voltage signal. This causes the voltage to appear at the Vout PIN 4 of the IPSl switch which then supplies power as in input power to the voltage regulator Ul (for example, an LM2936MM-5.0 device), which then permits the microcontroller U2 to continue to be powered, even after trie SwitchPower signal at PIN 16 of the device has been removed. [0016] Subsequently, and after a programmable time delay, the microcontroller issues a second enable signal EN 2 which is provided to the second FET switch D?S3. Once the second switch is enabled, the power signal which is provided as - A -
a Vin voltage at the device pins 3, 4 and 5, ultimately appears as the Vout signal at the device pins 10, 11 and 12. It is this Vout signal at the pins 10, 11 and 12 that is supplied to the ultimately controlled device being controlled, e.g., the missile, rocket, etc. The pair of FET switches identified as parts IPS2 and IPS4 (utilizing IPS5451S FETs) can be utilized for lower voltage but higher sustained current applications. The PCB is designed to accept either type of FET device. [0017] Figure 3 is a block diagram of the circuit of Figure 2 showing the control device and the fully protected MOSFET switches, as described above. [0018] The intelligent squib of the present invention has been constructed and found to be highly reliable and well protected. It can be provided in normally open or closed models. It can handle inductive loads and its protection includes short circuit ESD, user fully protected power MOSFET switches utilizing the above-described two-level in-series MOSFETS . The novel device can provide programmable delay from enable to circuit closure and it can be provided in small package sizes, as well as in surface mounted technology packages or in conventional dual inline construction. [0019] Although the present invention has been described in relation to particular embodiments thereof, many other variations and modifications and other uses will become apparent to those skilled in the art. It is preferred, therefore, that trie present invention be limited not by the specific disclosure herein, but only by the appended claims.