SP706CU-L Exar Corporation, SP706CU-L Datasheet
SP706CU-L
Specifications of SP706CU-L
Related parts for SP706CU-L
SP706CU-L Summary of contents
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... The SP705-708/813L series is an ideal solution for systems in which critical monitoring of the power supply to the µP and related digital components is demanded. Part Number RESET Threshold SP705 4.65V SP706 4.40V SP707 4.65V SP708 4.40V SP813L 4.65V Exar Corporation 48720 Kato Road, Fremont CA 94538, USA ...
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... MR to Reset Out Delay t MD PFI Input Threshold PFI Input Current V PFO Output Voltage Note 1: The input voltage limits on PFI and MR can be exceeded if the input current is less than 10mA. Note 2: Applies to both RESET in the SP705-SP708 and RESET in the SP707/708/813L/813M. © 2010 Exar Corporation ...
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... BLOCK DIAGRAM © 2010 Exar Corporation Fig. 1: SP705-SP706-SP813L Block Diagram Fig. 2: SP707-SP708 Block Diagram 3/ Rev. 2.0 ...
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... PIN ASSIGNMENT PIN DESCRIPTION Pin Number Name SP705-SP706 SOIC MSOP GND 5 4 PFI 6 5 PFO - 6 WDI RESET 1 © 2010 Exar Corporation Fig. 3: Pin Assignment SP707-SP708 SP813L DIP SOIC MSOP SOIC Manual Reset This input triggers a reset pulse when pulled below 0.8V. This active LOW input has an internal 250µ ...
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... SP706CN-L/TR 0°C≤T ≤+70°C A SP706EN-L -40°C≤T ≤+85°C A SP706EN-L/TR -40°C≤T ≤+85°C A SP706CU-L 0°C≤T ≤+70°C A SP706CU-L/TR 0°C≤T ≤+70°C A SP707CN-L 0°C≤T ≤+70°C A SP707CN-L/TR 0°C≤T ≤+70°C A SP707EN-L -40°C≤T ≤+85°C A SP707EN-L/TR -40° ...
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... TYPICAL PERFORMANCE CHARACTERISTICS All data taken 2.7V to 5.5V Information section of this datasheet. Fig. 4: Power-Fail Comparator De-Assertion Response Time Fig. 6: Power-Fail Comparator Assertion Response Time Fig. 8: SP705/707 RESET Output Voltage vs. Supply Voltage © 2010 Exar Corporation 25°C, unless otherwise specified - Schematic and BOM from Application ...
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... Fig. 10: SP705/707 RESET Response Time Fig. 12: SP707 RESET and RESET Assertion Fig. 14: SP707 RESET and RESET Assertion and De-Assertion Circuit © 2010 Exar Corporation Fig. 11: SP705/707 RESET Response Time Circuit Fig. 13: SP707 RESET and RESET De-Assertion 7/ Rev. 2.0 ...
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... Fig. 15: SP707/708/813L RESET Output Voltage vs. Supply Voltage Fig. 17: SP707/708/813L RESET Output Voltage vs. Supply Voltage © 2010 Exar Corporation Fig. 16: SP813L RESET Response Time and SP813L RESET Response Time Circuit 8/ Rev. 2.0 ...
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... Implementing this series number of components and overall complexity. The watchdog functions of this product family will continuously oversee status of a system. The operational features and benefits of the SP705-708/813L series are described in more detail below. © 2010 Exar Corporation ...
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... PFI pin to a voltage divider as shown in Figure 20. Choose the voltage divider ratio so that the voltage at PFI falls below 1.25V just before the +5V regulator drops out. Use PFO to interrupt the µ can prepare for an orderly power-down. © 2010 Exar Corporation ...
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... EGATIVE The power-fail comparator can also monitor a negative supply rail, shown in Figure 22. When the negative rail is good (a negative voltage of large magnitude), PFO is LOW. By adding the resistors and transistor as shown, a HIGH PFO triggers RESET. As long as PFO remains HIGH, © 2010 Exar Corporation ...
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... Unlike the DS1232, 708/813L series has a separate watchdog output pin WDO which connected to the MR input to generate a Reset signal. The DS1232 has features, while the SP705-708/813L series has more fixed functions of reset threshold and watchdog time-out delay. © 2010 Exar Corporation ...
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... Fig. 26: Device Overviw on Maxim/Dallas Semiconductor © 2010 Exar Corporation 13/ Rev. 2.0 ...
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... PACKAGE SPECIFICATION 8-P NSOIC IN © 2010 Exar Corporation 14/ Rev. 2.0 ...
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... MSOP IN © 2010 Exar Corporation 15/ Rev. 2.0 ...
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... PDIP IN © 2010 Exar Corporation 16/ Rev. 2.0 ...
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... While the information in this publication has been carefully checked; no responsibility, however, is assumed for inaccuracies. EXAR Corporation does not recommend the use of any of its products in life support applications where the failure or malfunction of the product can reasonably be expected to cause failure of the life support system or to significantly affect its safety or effectiveness. Products are not authorized for use in such applications unless EXAR Corporation receives, in writing, assurances to its satisfaction that: (a) the risk of injury or damage has been minimized ...