摘要:
A phase adjustment circuit includes: a serial-to-parallel conversion section configured to convert serial data including a synchronization pattern inserted into a predetermined position into parallel data in response to a clock; a synchronization-pattern-position detection section configured to detect the position of the synchronization pattern in the parallel data generated by the serial-to-parallel conversion section; and an adjustment section configured to adjust the phases of the parallel data and the clock to conform to a position detected by the synchronization-pattern-position detection section as the position of the synchronization pattern in accordance with information on the position of the synchronization pattern.
摘要:
Disclosed herein is a clock data recovery circuit including: a first phase detector; a loop filter; a charge pump; a voltage-controlled oscillator; a second phase detector; a phase correction information generation section; and a phase correction information addition section.
摘要:
Disclosed herein is a clock data recovery circuit including: a first phase detector; a loop filter; a charge pump; a voltage-controlled oscillator; a second phase detector; a phase correction information generation section; and a phase correction information addition section.
摘要:
A flexible printed circuit board has an insulation layer, a first signal wiring layer including a microstrip line, a second signal wiring layer including a signal connection terminal for allowing the microstrip line to connect the exterior connector electrically, and a ground conductive section having a ground connection terminal for connecting the exterior connector. The microstrip line and the signal connection terminal are connected to each other by a wiring via hole. The wiring via hole passes through the insulation layer, the first signal wiring layer, and the second signal wiring layer. The microstrip line has a taper section which gradually enlarges a width of the microstrip line toward the wiring via hole in the vicinity of the wiring via hole. The ground conductive section that corresponds to the microstrip line has a taper section with a shape matching the taper section of the microstrip line.
摘要:
The present invention provides an optical transmission module having a laser diode that generates laser beams and a differential type current switch provided with a first switch and a second switch in order to supply a modulating current to the laser diode. A terminal of the laser diode and the first switch are connected in series through a first transmission line and a first capacitor, the other terminal of the laser diode and the second switch are connected in series through a second transmission line and a second capacitor. The current driven by the second switch is terminated by a resistor connected to the first switch and the current driven by the first switch is terminated by a resistor connected to the second switch. Thus, the laser diode is modulated bidirectionally.
摘要:
An optical transmitter in which a microstripline is formed by a signal wiring pattern and a GND conductor pattern on a circuit board (including a flexible board), and a signal lead of a light emitting element module is mounted in a signal lead mounting hole connected with said signal wiring pattern so as to be connected with said signal wiring pattern, wherein a pattern adapted to add capacitance between a stem of said light emitting element module and said signal wiring pattern is provided on said signal wiring pattern on said circuit board, and wherein the pattern adapted to add capacitance has a size corresponding to ±50% of a capacitance C≈L/Zo2, where Zo is signal line impedance, and L is the signal lead inductance.
摘要翻译:一种光发射机,其中微带线由电路板(包括柔性板)上的信号布线图案和GND导体图案形成,并且发光元件模块的信号引线安装在与 所述信号布线图形与所述信号布线图形连接,其中在所述电路板上的所述信号布线图案上设置适于在所述发光元件模块的杆和所述信号布线图案之间增加电容的图案,其中 适于添加电容的图案的尺寸对应于电容C≈L/ Zo 2的±50%,其中Zo是信号线阻抗,L是信号引线电感。
摘要:
Optical transmission equipment with more than one power supply which can, when turning on the power supplies, set predetermined function of a signal processing circuit after a predetermined time period after the last turn-on of the power supply and can enable the operation of a drive circuit of the light emitting device after an additional predetermined time period.
摘要:
An optical transmitter in which a microstripline is formed by a signal wiring pattern and a GND conductor pattern on a circuit board (including a flexible board), and a signal lead of a light emitting element module is mounted in a signal lead mounting hole connected with said signal wiring pattern so as to be connected with said signal wiring pattern, wherein a pattern adapted to add capacitance between a stem of said light emitting element module and said signal wiring pattern is provided on said signal wiring pattern on said circuit board, and wherein the pattern adapted to add capacitance has a size corresponding to ±50% of a capacitance C≈L/Zo2, where Zo is signal line impedance, and L is the signal lead inductance.
摘要翻译:一种光发射机,其中微带线由电路板(包括柔性板)上的信号布线图案和GND导体图案形成,并且发光元件模块的信号引线安装在与 所述信号布线图形与所述信号布线图形连接,其中在所述电路板上的所述信号布线图案上设置适于在所述发光元件模块的杆和所述信号布线图案之间增加电容的图案,其中 适于添加电容的图案的尺寸对应于电容C≈L/ Zo 2的±50%,其中Zo是信号线阻抗,L是信号引线电感。
摘要:
Disclosed herein is a CDR circuit including delay elements, including: a divider having a delay element and configured to extract a clock by using, as a trigger, a data input with a signal transition regularly inserted; and a latch configured to latch an input data signal in synchronization with the clock extracted by the divider.
摘要:
Disclosed herein is a driver amplifier circuit, including: a first current source transistor of a first conductivity type, and a second current source transistor of the first conductivity type, control voltages being supplied to gates of the first current source transistor and the second current source transistor, respectively; a first switching transistor of the first conductivity type, and a second switching transistor of the first conductivity type; a third switching transistor of a second conductivity type, and a fourth switching transistor of the second conductivity type; first, second, third, and fourth resistor elements; and a first output node and a second output node.