Download Agilent Technologies 6201B Specifications
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The auto-balancing bridge instruments for low frequency impedance measurement (below 100 kHz) usually employ a simple I-V converter circuit (an operational amplifier with a negative feedback loop) in place of the ammeter as shown in Figure 2-2 (b). The bridge section works to measure impedance as follows: The test signal current (Ix) flows through the DUT and also flows into the I-V converter. The operational amplifier of the I-V converter makes the same current as Ix flow through the resistor (Rr) on the negative feedback loop. Since the feedback current (Ir) is equal to the input current (Ix) flows through the Rr and the potential at the Low terminal is automatically driven to zero volts. Thus, it is called virtual ground. The I-V converter output voltage (Vr) is represented by the following equation: Vr = Ir x Rr = Ix x Rr (2-1) Ix is determined by the impedance (Zx) of the DUT and the voltage Vx across the DUT as follows: Vx Ix = (2-2) Zx From the equations 2-1 and 2-2, the equation for impedance (Zx) of the DUT is derived as follows: Vx Zx = Ix Vx = Rr (2-3) Vr The vector voltages Vx and Vr are measured with the vector voltmeters as shown in Figure 2-2 (b). Since the value of Rr is known, the complex impedance Zx of the DUT can be calculated by using equation 2-3. The Rr is called the range resistor and is the key circuit element, which determines the impedance measurement range. The Rr value is selected from several range resistors depending on the Zx of the DUT as described in Section 2.4.3. In order to avoid tracking errors between the two voltmeters, most of the impedance measuring instruments measure the Vx and Vr with a single vector voltmeter by alternately selecting them as shown in Figure 2-3. The circuit block, including the input channel selector and the vector voltmeter, is called the vector ratio detector, whose name comes from the function of measuring the vector ratio of Vx and Vr. Vector ratio detector section Signal source section Vx Rs DUT High Low Rr Vr V Auto-balancing bridge section Figure 2-3. Impedance measurement using a single vector voltmeter 2-5