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ADN2530 Datasheet(PDF) 11 Page - Analog Devices |
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ADN2530 Datasheet(HTML) 11 Page - Analog Devices |
11 / 20 page Data Sheet ADN2530 Rev. B | Page 11 of 20 The equivalent circuits of the BSET, IBIAS, and IBMON pins are shown in Figure 25 to Figure 27. VCC BSET VCC 800 Ω 200 Ω Figure 25. Equivalent Circuit of the BSET Pin 10 Ω 2k Ω 100 Ω IBIAS VCC VCC Figure 26. Equivalent Circuit of the IBIAS Pin VCC IBMON VCC 100 Ω 500 Ω VCC Figure 27. Equivalent Circuit of the IBMON Pin The recommended configuration for BSET, IBIAS, and IBMON is shown in Figure 28. ADN2530 BSET VBSET GND IBMON IBIAS TO LASER CATHODE L RIBMON 750 Ω IBIAS Figure 28. Recommended Configuration for BSET, IBIAS, and IBMON Pins The circuit used to drive the BSET voltage must be able to drive the 1 kΩ input resistance of the BSET pin. For proper operation of the bias current source, the voltage at the IBIAS pin must be between the compliance voltage specifications for this pin over supply, temperature, and bias current range (see Table 1). The maximum compliance voltage is specified for only two bias current levels (2 mA and 25 mA), but it can be calculated for any bias current by VCOMPLIANCE (V) = VCC (V) − 0.75 − 22 × IBIAS (A) See the Headroom Calculations section for examples. The function of Inductor L is to isolate the capacitance of the IBIAS output from the high frequency signal path. For recommended components, see Table 6. AUTOMATIC LASER SHUTDOWN (ALS) The ALS pin is a digital input that enables/disables both the bias and modulation currents, depending on the logic state applied, as shown in Table 5. Table 5. ALS Logic State IBIAS and IMOD High Disabled Low Enabled Floating Enabled The ALS pin is compatible with 3.3 V CMOS and TTL logic levels. Its equivalent circuit is shown in Figure 29. VCC ALS VCC 100 Ω 35k Ω 2k Ω Figure 29. Equivalent Circuit of the ALS Pin MODULATION CURRENT The modulation current can be controlled by applying a dc voltage to the MSET pin. This voltage is converted into a dc current by using a voltage-to-current converter that uses an operational amplifier and a bipolar transistor, as shown in Figure 30. 100Ω 200Ω 800Ω MSET GND IMODP IMODN ADN2530 VCC FROM CPA STAGE IMOD Figure 30. Generation of Modulation Current on the ADN2530 This dc current is switched by the data signal applied to the input stage (DATAP and DATAN pins) and gained up by the output stage to generate the differential modulation current at the IMODP and IMODN pins. The output stage also generates the active back-termination, which provides proper transmission line termination. Active back-termination uses feedback around an active circuit to synthesize a broadband termination resistance. |
Similar Part No. - ADN2530_15 |
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Similar Description - ADN2530_15 |
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