link to page 16 link to page 16 link to page 16 link to page 16 AD8042Single-Ended-to-Differential Driver The cable has a characteristic impedance of about 120 Ω. Each Using a cross-coupled, single-ended-to-differential converter driver output is back terminated with a pair of 60.4 Ω resistors (SEDC), the AD8042 makes a good general-purpose differential to make the source look like 120 Ω. The receive end is terminated line driver. This SEDC can be used for applications such as with 121 Ω, and the signal is measured differentially with a pair driving Category-5 (CAT-5) twisted pair wires. Figure 39 shows of scope probes. One channel on the oscilloscope is inverted a configuration for a circuit that performs this function that can and then the signals are added. be used for video transmission over a differential pair or various data communication purposes. Figure 40 shows the results of the circuit in Figure 39 driving 50 meters of CAT-5 cable. +5V0.1µF10µF1V200mV50nsRIN100R1kΩF38VV90IN1kΩIN60.4Ω149.9ΩAMP12RA1kΩ50mRRBBV1kΩ1kΩ121ΩOUTAD8042VOUTRA101kΩ60%760.4Ω 0 5 AMP2200mV -04 4 59 10 0 100Ω 39 0 0.1µF10µF Figure 40. Differential Driver Frequency Response 9- 05 –5V 01 Figure 39. Single-Ended-to-Differential Twisted Pair Line Driver Single-Supply Differential A/D Driver The single-ended-to-differential converter circuit is also useful Each of the op amps of the AD8042 is configured as a unity gain as a differential driver for video speed, single-ended, differential follower by the feedback resistors (RA). Each op amp output also input ADCs. Figure 41 is a schematic that shows such a circuit drives the other as a unity gain inverter via RB, c B reating a totally differentially driving an AD9220, a 12-bit, 10 MSPS ADC. symmetrical circuit. +5V If the noninverting input of AMP2 is grounded and a small +5V0.1µF positive signal is applied to the noninverting input of AMP1, the output of AMP1 is driven to saturation in the positive 0.1µF1kΩ1kΩ direction and the input of AMP2 is driven to saturation in the 38VIN1 negative direction. This is similar to the way a conventional op 2+5V+5V+5V amp behaves without any feedback. 1kΩ0.1µF0.1µF0.1µF281526 If a resistor (R 1kΩ1kΩ F) is connected from the output of AMP2 to the AD8042DVDDAVDDAVDD noninverting input of AMP1, negative feedback is provided, which +5V141kΩOTR closes the loop. An input resistor (R VINA IN) makes the circuit look 613BIT 17 like a conventional inverting op amp configuration with 2.49kΩVINB12BIT 2511 differential outputs. 4BIT 32.49kΩ0.1µFCAPT10BIT 4AD922090.1µFBIT 5 The gain of this circuit from input to either output is ±RF/RIN, or 10/160.1µF8CAPBBIT 6 the single-ended-to-differential gain is 2 × R 7 F/RIN. This gives the 0.1µF18BIT 7VREF6 circuit the advantage of being able to adjust its gain by changing 17BIT 8SENSE5BIT 9 a single resistor. 224CMLBIT 100.1µF3BIT 1121 CLKBIT 12CLOCKREFCOM DVSS AVSS AVSS 041 19272516 59- 10 0 Figure 41. AD8042 Differential Driver for the AD9220 12-Bit, 10 MSPS ADC Rev. E | Page 14 of 16 Document Outline FEATURES APPLICATIONS GENERAL DESCRIPTION CONNECTION DIAGRAM TABLE OF CONTENTS REVISION HISTORY SPECIFICATIONS ABSOLUTE MAXIMUM RATINGS MAXIMUM POWER DISSIPATION ESD CAUTION TYPICAL PERFORMANCE CHARACTERISTICS APPLICATIONS INFORMATION CIRCUIT DESCRIPTION DRIVING CAPACITIVE LOADS OVERDRIVE RECOVERY Single-Supply Composite Video Line Driver Single-Ended-to-Differential Driver Single-Supply Differential A/D Driver HDSL Line Driver LAYOUT CONSIDERATIONS OUTLINE DIMENSIONS ORDERING GUIDE
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