Datasheet LT1019 (Analog Devices) - 4
| Fabricante | Analog Devices |
| Descripción | Precision Reference |
| Páginas / Página | 12 / 4 — ELECTRICAL CH. ARA TERISTICS. The |
| Formato / tamaño de archivo | PDF / 164 Kb |
| Idioma del documento | Inglés |
ELECTRICAL CH. ARA TERISTICS. The
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- LT1019ACN8-10#PBF LT1019ACN8-2.5#PBF LT1019ACN8-4.5#PBF LT1019ACN8-5#PBF LT1019ACS8-2.5#PBF LT1019ACS8-2.5#TRPBF LT1019ACS8-5#PBF LT1019ACS8-5#TRPBF LT1019AIS8-2.5#PBF LT1019AIS8-2.5#TRPBF LT1019AIS8-5#PBF LT1019AIS8-5#TRPBF LT1019CN8-10#PBF LT1019CN8-2.5#PBF LT1019CN8-4.5#PBF LT1019CN8-5#PBF LT1019CS8-10#PBF LT1019CS8-10#TRPBF LT1019CS8-2.5#PBF LT1019CS8-2.5#TRPBF LT1019CS8-4.5#PBF LT1019CS8-4.5#TRPBF LT1019CS8-5#PBF LT1019CS8-5#TRPBF LT1019IN8-10#PBF LT1019IN8-2.5#PBF LT1019IN8-4.5#PBF LT1019IN8-5#PBF LT1019IS8-2.5#PBF LT1019IS8-2.5#TRPBF LT1019IS8-5#PBF LT1019IS8-5#TRPBF
Versión de texto del documento
LT1019
ELECTRICAL CH C ARA TERISTICS The
●
denotes specifications which apply over the full operating temperature range, otherwise specifications are TA = 25
°
C. VIN = 15V, IOUT = 0 unless otherwise noted. LTC1019A LTC1019 SYMBOL PARAMETER CONDITIONS MIN TYP MAX MIN TYP MAX UNITS
∆VOUT Load Regulation Series 0 ≤ IOUT ≤ 10mA (Note 5) 0.02 0.05 0.02 0.05 mV/mA (Ω) ∆IOUT Mode (Notes 4, 5) ● 0.08 0.08 mV/mA (Ω) Load Regulation, 1mA ≤ ISHUNT ≤ 10mA (Notes 5, 6) Shunt Mode 2.5V, 4.5V, 5V ● 0.1 0.4 0.1 0.4 mV/mA (Ω) 10V ● 0.8 0.8 mV/mA (Ω) Thermal Regulation (Note 7) ∆P = 200mW, t = 50ms 0.1 0.5 0.1 0.5 ppm/mW IQ Quiescent Current 0.65 1.0 0.65 1.2 mA Series Mode ● 1.3 1.5 mA Minimum Shunt Current (Note 8) ● 0.5 0.8 0.5 0.8 mA Minimum Input/Output IOUT ≤ 1mA ● 0.9 1.1 0.9 1.1 V Voltage Differential IOUT = 10mA ● 1.3 1.3 V Trim Range LT1019-2.5 ±3.5 ±6 ±3.5 ±6 % LT1019-5 ±3.5 5, – 13 ±3.5 5, – 13 % LT1019-10 ±3.5 5, – 27 ±3.5 5, – 27 % ISC Short-Circuit Current 2V ≤ VIN ≤ 35V 15 25 50 15 25 50 mA Output Connected to GND ● 10 10 mA en Output Voltage Noise 10Hz ≤ f ≤ 1kHz 2.5 4 2.5 4 ppm (RMS) (Note 10) 0.1Hz ≤ f ≤ 10Hz 2.5 2.5 ppm (P-P)
Note 1:
Absolute Maximum Ratings are those values beyond which the life
Note 7:
Thermal regulation is caused by die temperature gradients created of a device may be impaired. by load current or input voltage changes. This effect must be added to
Note 2:
These are high power conditions and are therefore guaranteed normal line or load regulation. only at temperatures equal to or below 70°C. Input is either floating, tied to
Note 8:
Minimum shunt current is measured with shunt voltage held output or held higher than output. 20mV below the value measured at 1mA shunt current.
Note 3:
Output voltage drift is measured using the box method. Output
Note 9:
Minimum input/output voltage is measured by holding input voltage is recorded at TMIN, 25°C and TMAX. The lowest of these three voltage 0.5V above the nominal output voltage, while measuring readings is subtracted from the highest and the resultant difference is VIN – VOUT. divided by (TMAX – TMIN).
Note 10:
RMS noise is measured with a single pole highpass filter at 10Hz
Note 4:
Line regulation and load regulation are measured on a pulse basis and a 2-pole lowpass filter at 1kHz. The resulting output is full-wave with low duty cycle. Effects due to die heating must be taken into account rectified and then integrated for a fixed period, making the final reading an separately. See thermal regulation and application section. average as opposed to RMS. A correction factor of 1.1 is used to convert
Note 5:
Load regulation is measured at a point 1/8" below the base of the from average to RMS, and a second correction of 0.88 is used to correct package with Kelvin contacts. the nonideal bandpass of the filters.
Note 6:
Shunt regulation is measured with the input floating. This
Note 11:
If the part is stored outside of the specified temperature range, parameter is also guaranteed with the input connected (V the output may shift due to hysteresis. IN – VOUT) > 1V, 0mA ≤ ISINK ≤ 10mA. Shunt and sink current flow into the output. 1019fd 4
ELECTRICAL CH C ARA TERISTICS The
●
denotes specifications which apply over the full operating temperature range, otherwise specifications are TA = 25
°
C. VIN = 15V, IOUT = 0 unless otherwise noted. LTC1019A LTC1019 SYMBOL PARAMETER CONDITIONS MIN TYP MAX MIN TYP MAX UNITS
∆VOUT Load Regulation Series 0 ≤ IOUT ≤ 10mA (Note 5) 0.02 0.05 0.02 0.05 mV/mA (Ω) ∆IOUT Mode (Notes 4, 5) ● 0.08 0.08 mV/mA (Ω) Load Regulation, 1mA ≤ ISHUNT ≤ 10mA (Notes 5, 6) Shunt Mode 2.5V, 4.5V, 5V ● 0.1 0.4 0.1 0.4 mV/mA (Ω) 10V ● 0.8 0.8 mV/mA (Ω) Thermal Regulation (Note 7) ∆P = 200mW, t = 50ms 0.1 0.5 0.1 0.5 ppm/mW IQ Quiescent Current 0.65 1.0 0.65 1.2 mA Series Mode ● 1.3 1.5 mA Minimum Shunt Current (Note 8) ● 0.5 0.8 0.5 0.8 mA Minimum Input/Output IOUT ≤ 1mA ● 0.9 1.1 0.9 1.1 V Voltage Differential IOUT = 10mA ● 1.3 1.3 V Trim Range LT1019-2.5 ±3.5 ±6 ±3.5 ±6 % LT1019-5 ±3.5 5, – 13 ±3.5 5, – 13 % LT1019-10 ±3.5 5, – 27 ±3.5 5, – 27 % ISC Short-Circuit Current 2V ≤ VIN ≤ 35V 15 25 50 15 25 50 mA Output Connected to GND ● 10 10 mA en Output Voltage Noise 10Hz ≤ f ≤ 1kHz 2.5 4 2.5 4 ppm (RMS) (Note 10) 0.1Hz ≤ f ≤ 10Hz 2.5 2.5 ppm (P-P)
Note 1:
Absolute Maximum Ratings are those values beyond which the life
Note 7:
Thermal regulation is caused by die temperature gradients created of a device may be impaired. by load current or input voltage changes. This effect must be added to
Note 2:
These are high power conditions and are therefore guaranteed normal line or load regulation. only at temperatures equal to or below 70°C. Input is either floating, tied to
Note 8:
Minimum shunt current is measured with shunt voltage held output or held higher than output. 20mV below the value measured at 1mA shunt current.
Note 3:
Output voltage drift is measured using the box method. Output
Note 9:
Minimum input/output voltage is measured by holding input voltage is recorded at TMIN, 25°C and TMAX. The lowest of these three voltage 0.5V above the nominal output voltage, while measuring readings is subtracted from the highest and the resultant difference is VIN – VOUT. divided by (TMAX – TMIN).
Note 10:
RMS noise is measured with a single pole highpass filter at 10Hz
Note 4:
Line regulation and load regulation are measured on a pulse basis and a 2-pole lowpass filter at 1kHz. The resulting output is full-wave with low duty cycle. Effects due to die heating must be taken into account rectified and then integrated for a fixed period, making the final reading an separately. See thermal regulation and application section. average as opposed to RMS. A correction factor of 1.1 is used to convert
Note 5:
Load regulation is measured at a point 1/8" below the base of the from average to RMS, and a second correction of 0.88 is used to correct package with Kelvin contacts. the nonideal bandpass of the filters.
Note 6:
Shunt regulation is measured with the input floating. This
Note 11:
If the part is stored outside of the specified temperature range, parameter is also guaranteed with the input connected (V the output may shift due to hysteresis. IN – VOUT) > 1V, 0mA ≤ ISINK ≤ 10mA. Shunt and sink current flow into the output. 1019fd 4