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LTC1052 Datasheet(PDF) 11 Page - Linear Technology |
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LTC1052 Datasheet(HTML) 11 Page - Linear Technology |
11 / 24 page LTC1052/LTC7652 11 1052fa PACKAGE-INDUCED OFFSET VOLTAGE Since the LTC1052 is constantly fixing its own offset, it may be asked why there is any error at all, even under transient temperature conditions. The answer is simple. The LTC1052 can only fix offsets inside its own nulling loop. There are many thermal junctions outside this loop that cannot be distinguished from legitimate signals. Some have been discussed previously, but the package thermal EMF effects are an important source of errors. Notice the difference in the thermal response curves of Figure 4. This can only be attributed to the package since everything else is identical. In fact, the VOS specification is set by the package-induced warm-up drift, not by the LTC1052. TO-99 metal cans exhibit the worst warm-up drift and Linear Technology sample tests TO-99 lots to minimize this problem. Two things make 100% screening costly: (1) The extreme precision required on the LTC1052 and (2) the thermal time constant of the package is 0.5 to 3 minutes, depend- ing on package type. The first precludes the use of auto- matic handling equipment and the second takes a long time. Bench test equipment is available to 100% test for warmed-up drift if offsets of less than ±5µV are required. APPLICATIO S I FOR ATIO Figure 5. DC to 1Hz (Test Circuit TC3) 1µV #1 COVERED #1 UNCOVERED #2 UNCOVERED 20 SEC CLOCK The LTC1052 has an internal clock, setting the nominal sampling frequency at 330Hz. On 8-pin devices, there is no way to control the clock externally. In some applica- tions it may be desirable to control the sampling clock and this is the function of the 14-pin device. CLK IN, CLK OUT and INT/EXT are provided to accomplish this. With no external connection, an internal pull-up holds INT/EXT at the V+ supply and the 14-pin device self- oscillates at 330Hz. In this mode there is a signal on the CLK IN pin of 660Hz (2 times sampling frequency) with a 30% duty cycle. A divide-by-two drives the CLK OUT pin and sets the sampling frequency. To use an external clock, connect INT/EXT to V– and the external clock to CLK IN. The logic threshold of CLK IN is 2.5V below the positive supply; this allows CMOS logic to drive it directly with logic supplies of V+ and ground. CLK IN can be driven from V+ to V– if desired. The duty cycle of the external clock is not particularly critical but should be kept between 30% and 60%. Capacitance between CLK IN and CLK OUT (pins 13 and 12) can cause the divide-by-two circuit to malfunction. To avoid this, keep this capacitance below 5pF. |
Similar Part No. - LTC1052_15 |
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Similar Description - LTC1052_15 |
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