MAX16999AUA09(2008) データシートの表示（PDF） - Maxim Integrated

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MAX16999AUA09
(Rev.:2008)

Ultra-Low Output Voltage, Low-Quiescent-Current Linear Regulator for High-Temperature Applications

Maxim Integrated 

Ultra-Low Output Voltage, Low-Quiescent-Current

Linear Regulator for High-Temperature Applications

Table 1. Output Currents at TA = +125°C

VOUT

(V)

0.5

0.6

0.7

0.8

0.9

1.0

1.1

1.2

1.5

1.8

2.5

3.3

SINGLE-LAYER BOARD

VIN = 3.3V

(mA)

92

95

99

100

100

100

100

100

100

100

100

100

VIN = 5V

(mA)

57

59

60

61

63

64

66

68

74

81

100

100

MULTILAYER

BOARD

VIN = 5V

(mA)

72

73

75

77

79

81

83

85

92

100

100

100

Undervoltage Lockout (UVLO)

Before the MAX16999 can operate, the input voltage

must exceed the UVLO threshold of 2.2V (max) with a

30mV hysteresis. If the input voltage is below the UVLO

threshold, OUT becomes high impedance and EN is

ignored regardless if it is driven high or low.

Applications Information

Capacitor Selection

Capacitors are required at the MAX16999 input and

output for stable operation over the full temperature

range and with load currents up to 100mA. Connect a

1µF ceramic capacitor between IN and GND and a

4.7µF ceramic capacitor between OUT and GND. The

input capacitor (CIN) lowers the source impedance of

the input supply. Use larger output capacitors to

reduce noise and improve stability and power-supply

rejection. The output capacitor’s equivalent series

resistance (ESR) affects stability and output noise. Use

output capacitors with an ESR of 30mΩ or less to

ensure stability and optimize transient response.

Surface-mount ceramic capacitors have very low ESR

and are commonly available in values up to 10µF.

Connect CIN and COUT as close to the MAX16999 as

possible to minimize the impact of the PCB trace induc-

tance.

Using MAX16999 in Parallel

with Another Supply

The MAX16999 can be used in parallel with another

supply of equal voltage (see Figure 2). The circuit

shows a typical low-power solution for a µC.

4V TO 36V

MAX1745

MAX8693

3.3V, 1A LOW-IQ

INTERFACE SUPPLY

1.2V, 3A

CORE SUPPLY

TO μC

MAX16999

1.2V LOW-IQ

CORE BYPASS

Figure 2. Low-Quiescent µC Supply Solution

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