5. Control of the output signal
... 2. Checking of the mechanical fixations.................................................................................................... 4 - Control of the front connector ................................................................................................................ 4 - Control ...
... 2. Checking of the mechanical fixations.................................................................................................... 4 - Control of the front connector ................................................................................................................ 4 - Control ...
LT5520 - 1.3GHz to 2.3GHz High Linearity Upconverting Mixer.
... in Figure 2. The 1000pF capacitor should be located as close to the pins as possible. VCC3 (Pin 8): Power Supply Pin for the Internal Mixer. Typical current consumption is about 36mA. This pin should be externally connected to VCC through an inductor. A 39nH inductor is used in Figure 2, though the ...
... in Figure 2. The 1000pF capacitor should be located as close to the pins as possible. VCC3 (Pin 8): Power Supply Pin for the Internal Mixer. Typical current consumption is about 36mA. This pin should be externally connected to VCC through an inductor. A 39nH inductor is used in Figure 2, though the ...
Testing the Pulse Width Modulator
... Pulse width modulation (PWM) is a common technique used for speed control. To help understand how PWM works, consider the following analogy of riding a bike. When you wish to accelerate, you start peddling at a comfortable cadence (your output is on). Once you reach your desired speed you quit peddl ...
... Pulse width modulation (PWM) is a common technique used for speed control. To help understand how PWM works, consider the following analogy of riding a bike. When you wish to accelerate, you start peddling at a comfortable cadence (your output is on). Once you reach your desired speed you quit peddl ...
E4400A Analog RF Signal Generator, 250 kHz to 1000 MHz
... Simultaneous Modulation All modulation types may be simultaneously enabled, except: FM with PM, AM with Burst. AM, FM, and PM can sum simultaneous inputs from any two sources (INT,EXT1, and EXT2.) Any given source (INT, EXT1, or EXT2) may only be routed to one activated modulation type. Remote Progr ...
... Simultaneous Modulation All modulation types may be simultaneously enabled, except: FM with PM, AM with Burst. AM, FM, and PM can sum simultaneous inputs from any two sources (INT,EXT1, and EXT2.) Any given source (INT, EXT1, or EXT2) may only be routed to one activated modulation type. Remote Progr ...
12 dBm OCP Millimeter-wave 28 nm CMOS Power
... Biasing of the circuit was performed with VDD = 1.1 V and VBias = 0.75 V. Small-signal characterization was carried out on-wafer at room temperature with an Agilent E83612 vector network analyzer and are presented in Fig. 21. The small-signal power gain is 13 dB at 60 GHz and is superior to 15 dB be ...
... Biasing of the circuit was performed with VDD = 1.1 V and VBias = 0.75 V. Small-signal characterization was carried out on-wafer at room temperature with an Agilent E83612 vector network analyzer and are presented in Fig. 21. The small-signal power gain is 13 dB at 60 GHz and is superior to 15 dB be ...
Full Article
... DC-DC converter, the constant power load represents a negative resistive load. Hence, a constant power load should not be connected to the boost PFC unless it is tightly regulated (close-loop controlled). The basic pre-regulator operation, presence double line frequency component at the output, diff ...
... DC-DC converter, the constant power load represents a negative resistive load. Hence, a constant power load should not be connected to the boost PFC unless it is tightly regulated (close-loop controlled). The basic pre-regulator operation, presence double line frequency component at the output, diff ...
Datasheet - Electric Druid
... This chip is a completely modern, microprocessor-based design that provides a fully voltagecontrolled looping ADSR envelope generator. The output from the chip is a PWM pulse train which only requires simple lowpass filtering to produce a genuine ADSR envelope shape. In addition to full voltage cont ...
... This chip is a completely modern, microprocessor-based design that provides a fully voltagecontrolled looping ADSR envelope generator. The output from the chip is a PWM pulse train which only requires simple lowpass filtering to produce a genuine ADSR envelope shape. In addition to full voltage cont ...
BDTIC www.BDTIC.com/infineon Wireless Components ASK/FSK Transmitter 915 MHz
... An external pull-up resistor has to be added in accordance to the driving requirements of the external device. A clock frequency of 3.57 MHz is selected by a logic low at CLKDIV input (pin9). A clock frequency of 894 kHz is selected by a logic high at CLKDIV input (pin9). ...
... An external pull-up resistor has to be added in accordance to the driving requirements of the external device. A clock frequency of 3.57 MHz is selected by a logic low at CLKDIV input (pin9). A clock frequency of 894 kHz is selected by a logic high at CLKDIV input (pin9). ...
Electronics
... (i) When the LDR is in the dark, the voltage across the LDR is approximately 6V, which takes the same value as the e.m.f. of the battery. Briefly explain the result and suggest a suitable instrument for the measurement of this voltage. (ii) The voltage across the LDR is 2V when the illumination is h ...
... (i) When the LDR is in the dark, the voltage across the LDR is approximately 6V, which takes the same value as the e.m.f. of the battery. Briefly explain the result and suggest a suitable instrument for the measurement of this voltage. (ii) The voltage across the LDR is 2V when the illumination is h ...
PowerPoint
... use Q=CVC to calculate V across a capacitor use VR=IR to calculate V across a resistor or I through a resistor or use V0-Vc to calculate V across R ...
... use Q=CVC to calculate V across a capacitor use VR=IR to calculate V across a resistor or I through a resistor or use V0-Vc to calculate V across R ...
dip meter - pa0fri.com
... The resonant frequency can be checked simply by touching the capacitance probe to the hot side of the resonant circuit under test, instead of coupling the DM-81's coil and measuring inductively. The frequency is read directly on the dial. See Figure 1B. Radio equipment is miniaturized and most coils ...
... The resonant frequency can be checked simply by touching the capacitance probe to the hot side of the resonant circuit under test, instead of coupling the DM-81's coil and measuring inductively. The frequency is read directly on the dial. See Figure 1B. Radio equipment is miniaturized and most coils ...
MC145193 Advance Information 1.1 GHz PLL Frequency Synthesizer
... The device features a single–ended current source/sink phase detector A output and a double–ended phase detector B output. Both phase detectors have linear transfer functions (no dead zones). The maximum current of the single–ended phase detector output is determined by an external resistor tied fro ...
... The device features a single–ended current source/sink phase detector A output and a double–ended phase detector B output. Both phase detectors have linear transfer functions (no dead zones). The maximum current of the single–ended phase detector output is determined by an external resistor tied fro ...
ADA4417-3 数据手册DataSheet 下载
... environments. With a supply range of 3.3 V to 5 V, it requires a relatively low nominal quiescent current of 10 mA per channel. This makes the ADA4417-3 well suited for portable high definition video applications. Additionally, for other low power applications, the part can be powered down to draw t ...
... environments. With a supply range of 3.3 V to 5 V, it requires a relatively low nominal quiescent current of 10 mA per channel. This makes the ADA4417-3 well suited for portable high definition video applications. Additionally, for other low power applications, the part can be powered down to draw t ...
RF3394 GENERAL PURPOSE AMPLIFIER Features
... No internal connections. It is not necessary to ground this pin. RF input pin. This pin is NOT internally DC blocked. A DC blocking capacitor, suitable for the frequency of operation, should be used in most applications. DC coupling of the input is not allowed, because this will override the interna ...
... No internal connections. It is not necessary to ground this pin. RF input pin. This pin is NOT internally DC blocked. A DC blocking capacitor, suitable for the frequency of operation, should be used in most applications. DC coupling of the input is not allowed, because this will override the interna ...
