Abstract: A system for predicting exterior ballistics has first and second bullet detectors operable to detect the passage of a bullet, the first and second bullet detectors being spaced apart by a selected detector spacing distance, the first and second bullet detector each being connected to a common time signal facility that generates a time signal, the first bullet detector being operable to generate a first time of passage based on the time signal, the second bullet detector being operable to generate a second time of passage based on the time signal, the first bullet detector being operable to measure a first bullet velocity, a controller in communication with the first and second bullet detectors, and the controller operable based on the difference between the first time and the second time, and based on the first bullet velocity to calculate a ballistic characteristic for the bullet.

Abstract: A system for predicting exterior ballistics has first and second bullet detectors operable to detect the passage of a bullet, the first and second bullet detectors being spaced apart by a selected detector spacing distance, the first and second bullet detector each being connected to a common time signal facility that generates a time signal, the first bullet detector being operable to generate a first time of passage based on the time signal, the second bullet detector being operable to generate a second time of passage based on the time signal, the first bullet detector being operable to measure a first bullet velocity, a controller in communication with the first and second bullet detectors, and the controller operable based on the difference between the first time and the second time, and based on the first bullet velocity to calculate a ballistic characteristic for the bullet.

Abstract: A system for predicting exterior ballistics has first and second bullet detectors operable to detect the passage of a bullet, the first and second bullet detectors being spaced apart by a selected detector spacing distance, the first and second bullet detector each being connected to a common time signal facility that generates a time signal, the first bullet detector being operable to generate a first time of passage based on the time signal, the second bullet detector being operable to generate a second time of passage based on the time signal, the first bullet detector being operable to measure a first bullet velocity, a controller in communication with the first and second bullet detectors, and the controller operable based on the difference between the first time and the second time, and based on the first bullet velocity to calculate a ballistic characteristic for the bullet.

Abstract: An apparatus and method for measuring ballistics in a firearm is disclosed. The apparatus comprises (a) a device for measuring pressure in a firearm-firing-chamber disposed at least in part at the strain sensitive region, and for producing analog signals indicative of the pressure, and connected to digitizing circuits which record the amplitudes of the signals representing pressure as a function of time; (b) a plurality of muzzle bullet sensors for measuring the relative times at which the bullet passes the plane of each sensor and for producing analog signals indicative of these times, the analog signals being converted to digital signals and connected to digital timing circuits; and (c) an acoustic target located downrange and including (i) sensors arrayed at corners of a triangle for sensing acoustic energy emitted by a passing bullet and (ii) a device for generating analog signals representative of the acoustic energy sensed at the triangle corners.

Abstract: A chronograph system includes three shot-sensing screens which provide start and stop signals to interval-determining timers. The first screen provides a start signal to both timers and the subsequent screens provide stop signals to the first and second timers, respectively. The time intervals measured by these timers are divided into the distances between the screens to separately calculate two velocities based on two different distances. The calculated velocities are compared to evaluate the performance of the instrumentation so that measurement errors resulting from the instrumentation itself can be eliminated from analysis of the test shots.

Abstract: In a ballistic velocity measuring device, two photodetectors are spaced apart by an accurately known distance along a projectile path exposed to ambient light from the sky. The invention comprises a sunshield and light diffuser structure for each (or both) of the photodetectors to eliminate light reflection from the projectile which can cancel the "shadow" of the projectile and prevent the photodetector from responding to passage of the projectile; and to increase the level of light to the photodetectors by diffusing direct sunlight.

Abstract: Light perturbations sequentially produced by a projectile at spaced points are detected by photodetectors connected to a logarithmic diode circuit which is AC coupled to an amplifier time-shared by the detectors. Successive pulses from the amplifier are interpreted by logic circuits to start and stop an interval counter.