| Part Numbert | Mfg | Packt | D/C | Descriptiont | Qty | Company/Contact | |
| SKM150GB126DE | SEMIKRON | 2006+ | 100 |
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| SKM150GB126DE | avail | SEMIKRON | 2006+ |
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SKM150GB126DE Datasheet Notes: 1. C2 = 10 ffF with CS8441 application. 2. The product of C4 and RT have a direct effect on gain and therefore directly affect temperature compensation. 3. C4 Range; 20 pF t0 0.2 ~F. 4. R4 Range; 100 kl t0 500 kl. 5. The lC must be protected from transients above 60 V and reverse battery conditions. 6. Additional filtering on the FREC>IN lead may be required. 7. Gauge coil connections to the lC must be kept as short as possible (" 3.0 inch) for best pointer stability SKM150GB126DE on stock EXPLANATION OF TEMPERATURE SENSOR SPECIFICATIONS The way in which the AD590 is specified makes it easy to apply in a wide variety of different applications. It is important to understand the meaning ofthe various specifications and the effects of supply voltage and thermal environment on accuracy. The frequency synthesizer section, capable of producing a large number of frequencies from a single external refer- ence source, generates the write clock and reference fre- quency for the synchronizer. This section includes a phase locked loop (PLL) with selectable dividers at the input port and in its feedback loop. The values for the dividers are controlled by two control words within the control register. The user has full control over both the input (five bit word, PDATA6-PDATA10) and feedback (six bit word, PDATAO- PDATA5) divider selection. The feedback divider has an ex- tra bit when compared to previous NSC integrated read channel circuits to improve the resolution of frequency set- ting. All blocks within the synthesizer, except the RC loop filter, are fully integrated. The loop filter resides external to the chip giving the user full control over the phase locked loop's dynamics. This device is available in an 80-pin 12 mm x 12 mm POFP package and operates off of a single + 5V supply. |
