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AD8310ARMZ-REEL7 数据表(PDF) 11 Page - Analog Devices |
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AD8310ARMZ-REEL7 数据表(HTML) 11 Page - Analog Devices |
11 / 24 page AD8310 Rev. E | Page 11 of 24 PRODUCT OVERVIEW The AD8310 has six main amplifier/limiter stages. These six cells and their and associated gm styled full-wave detectors handle the lower two-thirds of the dynamic range. Three top- end detectors, placed at 14.3 dB taps on a passive attenuator, handle the upper third of the 95 dB range. The first amplifier stage provides a low noise spectral density (1.28 nV/√Hz). Biasing for these cells is provided by two references: one determines their gain, and the other is a band gap circuit that determines the logarithmic slope and stabilizes it against supply and temperature variations. The AD8310 can be enabled or disabled by a CMOS-compatible level at ENBL (Pin 7). The differential current-mode outputs of the nine detectors are summed and then converted to single-sided form, nominally scaled 2 μA/dB. The output voltage is developed by applying this current to a 3 kΩ load resistor followed by a high speed gain-of-four buffer amplifier, resulting in a logarithmic slope of 24 mV/dB (480 mV/decade) at VOUT (Pin 4). The unbuffered voltage can be accessed at BFIN (Pin 6), allowing certain functional modifications such as the addition of an external postdemodulation filter capacitor and the alteration or adjustment of slope and intercept. + – VPOS INHI INLO COMM 3 8mA 1.0k Ω BAND GAP REFERENCE AND BIASING SIX 14.3dB 900MHz AMPLIFIER STAGES NINE DETECTOR CELLS SPACED 14.3dB INPUT-OFFSET COMPENSATION LOOP 2 2 μA /dB MIRROR 3k Ω 3k Ω 1k Ω COMM COMM COMM ENBL BFIN VOUT OFLT ENABLE BUFFER INPUT OUTPUT OFFSET FILTER AD8310 SUPPLY +INPUT –INPUT COMMON 33pF Figure 22. Main Features of the AD8310 The last gain stage also includes an offset-sensing cell. This generates a bipolarity output current, if the main signal path exhibits an imbalance due to accumulated dc offsets. This current is integrated by an on-chip capacitor that can be increased in value by an off-chip component at OFLT (Pin 3). The resulting voltage is used to null the offset at the output of the first stage. Because it does not involve the signal input connections, whose ac-coupling capacitors otherwise introduce a second pole into the feedback path, the stability of the offset correction loop is assured. The AD8310 is built on an advanced, dielectrically isolated, complementary bipolar process. In the following interface diagrams shown in Figure 23 to Figure 26, resistors labeled as R are thin-film resistors that have a low temperature coefficient of resistance (TCR) and high linearity under large-signal conditions. Their absolute tolerance is typically within ±20%. Similarly, capacitors labeled as C have a typical tolerance of ±15% and essentially zero temperature or voltage sensitivity. Most interfaces have additional small junction capacitances associated with them, due to active devices or ESD protection, which might not be accurate or stable. Component numbering in these interface diagrams is local. ENABLE INTERFACE The chip-enable interface is shown in Figure 23. The currents in the diode-connected transistors control the turn-on and turn- off states of the band gap reference and the bias generator. They are a maximum of 100 μA when ENBL is taken to 5 V under worst-case conditions. For voltages below 1 V, the AD8310 is disabled and consumes a sleep current of less than 1 μA. When tied to the supply or a voltage above 2 V, it is fully enabled. The internal bias circuitry is very fast (typically <100 ns for either off or on). In practice, however, the latency period before the log amp exhibits its full dynamic range is more likely to be limited by factors relating to the use of ac-coupling at the input or the settling of the offset-control loop (see the following sections). COMM ENBL 40k Ω TO BIAS STAGES AD8310 2 7 Figure 23. Enable Interface INPUT INTERFACE Figure 24 shows the essentials of the input interface. CP and CM are parasitic capacitances, and CD is the differential input capacitance, largely due to Q1 and Q2. In most applications, both input pins are ac-coupled. The S switches close when enable is asserted. When disabled, bias current IE is shut off and the inputs float; therefore, the coupling capacitors remain charged. If the log amp is disabled for long periods, small leakage currents discharge these capacitors. Then, if they are poorly matched, charging currents at power-up can generate a transient input voltage that can block the lower reaches of the dynamic range until it becomes much less than the signal. A single-sided signal can be applied via a blocking capacitor to either Pin 1 or Pin 8, with the other pin ac-coupled to ground. Under these conditions, the largest input signal that can be handled is 0 dBV (a sine amplitude of 1.4 V) when using a 3 V supply; a 5 dBV input (2.5 V amplitude) can be handled with a 5 V supply. When using a fully balanced drive, this maximum input level is permissible for supply voltages as low as 2.7 V. Above 10 MHz, this is easily achieved using an LC matching network. Such a network, having an inductor at the input, usefully eliminates the input transient noted above. |
类似零件编号 - AD8310ARMZ-REEL7 |
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类似说明 - AD8310ARMZ-REEL7 |
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