Times quite stupid asking: Do you have a battery in it?
Why is that? I have with the balanced / unbalanced signals is now a problem, or must I change something in Camcordermenu?Īctually, the microphone is still suitable for the XM2, right? If I take the microphone, which is already built into the XM2, everything works great. The display shows the audio levels of anything, and if I reproduce the images synonymous will not get sound. However in the camcorder, no input signal. I bought an adapter cable to XLR to 3.5 mm jack of it and (in my camcorder, Canon XM2 infected). I now have the t-bone Microphone EM9600 since about a week. The PCB shown here is unfortunately not available readymade through the Publishers’ Readers Services.Microphone (, t-bone EM9600) for Canon XL2? With both outputs loaded and driven, the current rises to around 16 mA. The no-load current of the IC is around 13 mA with no input signal. The layout of the power supply and amplifier portion has been kept modest so that you should not have any trouble finding a small enclosure to hold everything. IC1 was mounted in a standard IC socket for the measurements, but it would be better to solder it directly to the board. The printed circuit board layout uses standard components and has been made as compact as possible. LED D1 is the required mains power indicator, which must be externally visible when the circuit is built into an enclosure. The 78L06 and 79L05 voltage regulators can adequately handle the low current demand. The power supply is a standard design, with generous RF decoupling. The positive voltage is larger since we assume that the signal is usually positive and that consequently more headroom is needed on the positive side. To minimize power dissipation, the supply voltages are limited to +6 V and –5 V.
The supply voltages for the IC are well decoupled by L1, L2, and C1 through C4. With a 75-Ω load (150 Ω in total), the measured bandwidth is roughly 45 MHz (1 Vpp across 75 Ω). According to the datasheet, the no-load bandwidth of the IC is 85 MHz at a gain of 2 with a ± 5 V supply. With VHF/UHF modulators or video capture cards for PCs, the synchronization may otherwise be unstable with bright pictures, since the sync pulses are weakened by the asymmetric supply voltage and the equipment in question evidently does not have clamp circuitry. The inputs and outputs are DC-coupled since certain video inputs need a signal with a DC to offset to maintain the proper black level. Two trimpots (P1 and P2) allow the output levels to be set to the standard value and compensate for various component tolerances. This means that the gain of the amplifiers must be a bit less than 3 (2 ÷ 0.7 = 2.86). The input and outputs of the circuit have the standard 75 Ω impedance. The amplifier IC combines high bandwidth and a large slew rate with a relatively low load current consumption. Both opamps are connected to the output of the MP10, so two separate devices can be connected to the outputs of the correction circuit. The correction circuit, with its own small power supply, can also be used for many other applications.Īn Analog Devices AD828 dual low-power video opamp is used for the amplifier. The low output level of the MP10 can easily be corrected. Many video inputs are standardized for 1-V signals. The output provides only 0.7 V, which is too low for most video equipment. Giesberts The Pinnacle Studio MP10 is an external real-time MPEG1 codec that includes composite video input and output.