会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明授权
    • Shutdown circuit for video monitor
    • 视频监控关机电路
    • US4749919A
    • 1988-06-07
    • US720065
    • 1985-04-08
    • Gregory J. BeaumontJames R. OatesRichard J. Steinmetz
    • Gregory J. BeaumontJames R. OatesRichard J. Steinmetz
    • H04N3/20H01J29/52H04N5/68
    • H04N3/20
    • In a horizontal drive circuit for a video display, means are provided for sensing the horizontal output pulse used to energize the high voltage sweep transformer and, in turn, the electrodes and deflection coils in a cathode ray tube (CRT). Horizontal output pulse height which represents not only the voltage applied to the CRT, but also retrace pulse duration is detected and utilized to terminate the video output when the horizontal pulse voltage level exceeds a predetermined value. Because this approach uses the collector pulse output of the horizontal output transistor to detect high voltage conditions, video shutdown during unsafe CRT operation is available not only for excessive peak voltage conditions, but also for improper retrace time operation due, for example, to sweep transformer malfunction.
    • 在用于视频显示器的水平驱动电路中,提供了用于感测用于激励高压扫描变压器的水平输出脉冲的装置,并且继而在阴极射线管(CRT)中感测电极和偏转线圈。 当水平脉冲电压电平超过预定值时,水平输出脉冲高度不仅表示施加到CRT的电压,而且回扫脉冲持续时间被检测并用于终止视频输出。 因为这种方法使用水平输出晶体管的集电极脉冲输出来检测高电压条件,所以在不安全的CRT操作期间的视频关断不仅可以用于过高的峰值电压条件,还可以用于不适当的回扫时间操作,例如由于扫描变压器 故障。
    • 3. 发明授权
    • Temperature compensated drive circuit for CRT G2 grid
    • CRT G2电网温度补偿驱动电路
    • US4645988A
    • 1987-02-24
    • US808303
    • 1985-12-11
    • George R. GawellRichard J. SteinmetzLeroy A. Sutton
    • George R. GawellRichard J. SteinmetzLeroy A. Sutton
    • H04N5/68H01J29/52
    • H04N5/68
    • A temperature compensated G2 grid drive circuit for use with a video display having a high voltage section supplying a high voltage signal to a cathode, filament and G2 grid of a CRT, wherein the high voltage section has a negative temperature coefficient, includes an input terminal for receiving the high voltage signal and a temperature compensating circuit coupled between the input terminal and the G2 grid of the CRT. The temperature compensating circuit is characterized as having a slightly positive temperature coefficient for maintaining the brightness of the video display substantially constant by driving the G2 grid for compensating for variations with temperature in the high voltage signal supplied to the cathode, filament and G2 grid.
    • 一种用于具有向CRT的阴极,灯丝和G2栅极提供高电压信号的高电压部分的视频显示器的温度补偿G2栅极驱动电路,其中所述高压部分具有负温度系数,包括输入端子 用于接收高压信号和耦合在CRT的输入端和G2栅之间的温度补偿电路。 温度补偿电路的特征在于具有稍微正的温度系数,用于通过驱动G2电网来维持视频显示器的亮度基本恒定,以补偿提供给阴极,灯丝和G2电网的高电压信号中的温度变化。
    • 6. 发明授权
    • Horizontal drive circuit for video display
    • 水平驱动电路用于视频显示
    • US4263615A
    • 1981-04-21
    • US77517
    • 1979-09-20
    • Richard J. SteinmetzGregory J. Beaumont
    • Richard J. SteinmetzGregory J. Beaumont
    • H04N5/12H04N5/04
    • H04N5/12
    • Disclosed is a horizontal drive system and method for operating a video display capable of precisely controlling over a wide timing range the interval between the arrival of the leading edge of the input drive pulse and the initiation of the flyback pulse thus permitting the horizontal output to the video display to be synchronized to a great variety of horizontal drive input signals. The leading edge of the horizontal drive pulse triggers a variable time delay monostable multivibrator, the locked output signal of which is coupled to a precision astable multivibrator. Potentiometer adjustment of the monostable multivibrator provides for adjusting video information position with respect to raster scan while the astable multivibrator acts as the oscillator in synchronizing horizontal sweep circuitry to the horizontal input drive signal.
    • 公开了一种用于操作视频显示器的水平驱动系统和方法,该视频显示器能够在宽的定时范围内精确地控制输入驱动脉冲的前沿到达之间的间隔和启动回扫脉冲,从而允许水平输出到 视频显示与多种水平驱动输入信号同步。 水平驱动脉冲的前沿触发可变时间延迟单稳态多谐振荡器,其锁定输出信号耦合到精密的非稳态多谐振荡器。 单稳态多谐振荡器的电位器调节提供了调整相对于光栅扫描的视频信息位置,而不稳定的多谐振荡器用作将水平扫描电路与水平输入驱动信号同步的振荡器。