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ADN2525ACPZ-R2 Datasheet(PDF) 9 Page - Analog Devices |
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ADN2525ACPZ-R2 Datasheet(HTML) 9 Page - Analog Devices |
9 / 16 page ADN2525 Rev. 0 | Page 9 of 16 THEORY OF OPERATION As shown in Figure 1, the ADN2525 consists of an input stage and two voltage controlled current sources for bias and modula- tion. The bias current is available at the IBIAS pin. It is controlled by the voltage at the BSET pin, and can be monitored at the IBMON pin. The differential modulation current is available at the IMODP and IMODN pins. It is controlled by the voltage at the MSET pin. The output stage implements the active back- match circuitry for proper transmission line matching and power consumption reduction. The ADN2525 can drive a load having differential resistance ranging from 5 Ω to 50 Ω. The excellent back-termination in the ADN2525 absorbs signal reflections from the TOSA end of the output transmission lines, enabling excellent optical eye quality to be achieved even when the TOSA end of the output transmission lines is significantly mis-terminated. INPUT STAGE The input stage of the ADN2525 converts the data signal applied to the DATAP and DATAN pins to a level that ensures proper operation of the high speed switch. The equivalent circuit of the input stage is shown in Figure 17. VCC 50 Ω 50 Ω VCC DATAP DATAN VCC Figure 17. Equivalent Circuit of the Input Stage The DATAP and DATAN pins are terminated internally with a 100 Ω differential termination resistor. This minimizes signal reflections at the input, which could otherwise lead to degrada- tion in the output eye diagram. It is not recommended to drive the ADN2525 with single-ended data signal sources. The ADN2525 input stage must be ac-coupled to the signal source to eliminate the need for matching between the common- mode voltages of the data signal source and the input stage of the driver (see Figure 18). The ac-coupling capacitors should have an impedance less than 50 Ω over the required frequency range. Generally this is achieved using 10 nF to 100 nF capacitors. ADN2525 DATAP DATAN C C 50 Ω 50 Ω DATA SIGNAL SOURCE Figure 18. AC-Coupling the Data Source to the ADN2525 Data Inputs BIAS CURRENT The bias current is generated internally using a voltage-to-current converter consisting of an internal operational amplifier and a transistor as shown in Figure 19. GND 200 Ω 800 Ω 2 Ω RR VCC IBMON BSET IBMON ADN2525 IBIAS 200 Ω IBIAS Figure 19. Voltage-to-Current Converter Used to Generate IBIAS The voltage-to-current conversion factor is set at 100 mA/V by the internal resistors, and the bias current is monitored using a current mirror with a gain equal to 1/100. By connecting a 1 kΩ resistor between IBMON and GND, the bias current can be monitored as a voltage across the resistor. A low temperature coefficient precision resistor must be used for the IBMON resistor (RIBMON). Any error in the value of RIBMON due to toler- ances, or drift in its value over temperature, contributes to the overall error budget for the IBIAS monitor voltage. If the IBMON voltage is being connected to an ADC for A/D conversion, RIBMON should be placed close to the ADC to minimize errors due to voltage drops on the ground plane. |
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