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Datasheet LT3481 (Analog Devices) - 10

ПроизводительAnalog Devices
Описание36V, 2A, 2.8MHz Step-Down Switching Regulator with 50µA Quiescent Current
Страниц / Страница24 / 10 — APPLICATIONS INFORMATION. Inductor Selection. Table 1. Inductor Vendors. …
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Язык документаанглийский

APPLICATIONS INFORMATION. Inductor Selection. Table 1. Inductor Vendors. VENDOR. URL. PART SERIES. TYPE

APPLICATIONS INFORMATION Inductor Selection Table 1 Inductor Vendors VENDOR URL PART SERIES TYPE

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LT3481
APPLICATIONS INFORMATION
frequency will be necessary to achieve safe operation at at least 3.5A at low duty cycles and decreases linearly to high input voltages. 2.5A at DC = 0.8. The maximum output current is a func- tion of the inductor ripple current: If the output is in regulation and no short-circuit or start-up events are expected, then input voltage transients of up to IOUT(MAX) = ILIM – ΔIL/2 36V are acceptable regardless of the switching frequency. Be sure to pick an inductor ripple current that provides In this mode, the LT3481 may enter pulse-skipping opera- suffi cient maximum output current (I tion where some switching pulses are skipped to maintain OUT(MAX)). output regulation. In this mode the output voltage ripple The largest inductor ripple current occurs at the highest and inductor current ripple will be higher than in normal VIN. To guarantee that the ripple current stays below the operation. specifi ed maximum, the inductor value should be chosen according to the following equation: The minimum input voltage is determined by either the LT3481’s minimum operating voltage of ~3.6V or by its ⎛ V + V ⎞ ⎛ V + V ⎞ OUT D OUT D maximum duty cycle (see equation in previous section). L = ⎜1– ⎟ ⎝⎜ f I Δ ⎠⎟ ⎜ V ⎟ The minimum input voltage due to duty cycle is: L ⎝ IN MA ( X) ⎠ V + V V OUT D = – V + V where VD is the voltage drop of the catch diode (~0.4V), IN MIN 1– f t D SW ( ) SW ( ) VIN(MAX) is the maximum input voltage, VOUT is the output OFF MIN voltage, fSW is the switching frequency (set by RT), and where VIN(MIN) is the minimum input voltage, and tOFF(MIN) L is in the inductor value. is the minimum switch off-time (150ns). Note that higher The inductor’s RMS current rating must be greater than the switching frequency will increase the minimum input maximum load current and its saturation current should be voltage. If a lower dropout voltage is desired, a lower about 30% higher. For robust operation in fault conditions switching frequency should be used. (start-up or short circuit) and high input voltage (>30V), the saturation current should be above 3.5A. To keep the
Inductor Selection
effi ciency high, the series resistance (DCR) should be less For a given input and output voltage, the inductor value than 0.1Ω, and the core material should be intended for and switching frequency will determine the ripple current. high frequency applications. Table 1 lists several vendors The ripple current ΔIL increases with higher VIN or VOUT and suitable types. and decreases with higher inductance and faster switch-
Table 1. Inductor Vendors
ing frequency. A reasonable starting point for selecting
VENDOR URL PART SERIES TYPE
the ripple current is: Murata www.murata.com LQH55D Open ΔIL = 0.4((IOUT(MAX)) TDK www.componenttdk.com SLF7045 Shielded SLF10145 Shielded where IOUT(MAX) is the maximum output load current. To Toko www.toko.com D62CB Shielded guarantee suffi cient output current, peak inductor current D63CB Shielded must be lower than the LT3481’s switch current limit (ILIM). D75C Shielded The peak inductor current is: D75F Open I Sumida www.sumida.com CR54 Open L(PEAK) = IOUT(MAX) + ΔIL/2 CDRH74 Shielded where IL(PEAK) is the peak inductor current, IOUT(MAX) is CDRH6D38 Shielded the maximum output load current, and ΔIL is the inductor CR75 Open ripple current. The LT3481’s switch current limit (ILIM) is 3481fc 10
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