Datasheet MCP1502 (Microchip) - 10
Fabricante | Microchip |
Descripción | High-Precision Buffered Voltage Reference |
Páginas / Página | 28 / 10 — MCP1502. Note:. 250. 120. MCP150-40 MCP150-33. 100. 200. MCP150-30 … |
Formato / tamaño de archivo | PDF / 19.5 Mb |
Idioma del documento | Inglés |
MCP1502. Note:. 250. 120. MCP150-40 MCP150-33. 100. 200. MCP150-30 MCP150-25 MCP150-20. 150. MCP150-18. (μA). MCP150-12. I DD 100. PSRR (dB)
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MCP1502 Note:
Unless otherwise specified, maximum values are: VDD(MIN) VDD 5.5V at TA = +25°C.
250 120 MCP150-40 MCP150-33 100 200 MCP150-30 MCP150-25 MCP150-20 80 150 MCP150-18 (μA) MCP150-12 60 I DD 100 40 PSRR (dB) MCP150-10 V = 1.024V, V = 1.65V OUT IN 50 V = 1.024V, V = 5.5V OUT IN 20 V = 4.096V, V = 4.3V OUT IN V = 4.096V, V = 5.5V 0 OUT IN 0 0.0 0.5 1.0 1.5 2.0 2.5 3.0 3.5 4.0 4.5 5.0 5.5 6.0 1 10 100 1000 10000 100000 V (V) DD Frequency (Hz) FIGURE 3-7:
IDD vs. VDD for Al Options.
FIGURE 3-10:
PSRR vs. Frequency, 1 kΩ Load, TA = +25°C.
100 V/√Hz) Q 10 25 Per. Mov. Avg. (MCP150-40) 1 100 25 Per. Mov. Avg. (MCP150-10) Noise Spectral Density ( 10 1 10 100 1 10 100 Frequency (Hz) FIGURE 3-8:
Noise vs. Frequency,
FIGURE 3-11:
Dropout Voltage vs. Load, No Load, TA = +25°C. TA = +25°C.
120 125 Units V 100 DD = 2.7V 80 60 QLWV RI8 40 PSRR (dB) V = 1.024V, V = 1.65V OUT IN EHU )UHTXHQF\ V = 1.024V, V = 5.5V 20 OUT IN V = 4.096V, V = 4.3V 1XP OUT IN V = 4.096V, V = 5.5V OUT IN 0 1 10 100 1000 10000 100000 Frequency (Hz) 7HPSHUDWXUH&RHIILFLHQWSSP& FIGURE 3-9:
PSRR vs. Frequency,
FIGURE 3-12:
MCP1502 Tempco No Load, TA = +25°C. Distribution, No Load, VDD = 2.7V. DS20006593A-page 10 2021 Microchip Technology Inc. and its subsidiaries Document Outline Features Applications Related Parts General Description Package Types Block Diagram 1.0 Pin Function Table TABLE 1-1: Pin Function Table 1.1 Buffered VREF Output (OUT) 1.2 System Ground (GND) 1.3 Shutdown Pin (SHDN) 1.4 Power Supply Input (VDD) 2.0 Electrical Characteristics Absolute Maximum Ratings(†) TABLE 2-1: DC Characteristics TABLE 2-2: Temperature Specifications 2.1 Terminology 2.1.1 Output Voltage (VOUT) 2.1.2 Input Voltage (VIN) 2.1.3 Temperature Coefficient (Tc) EQUATION 2-1: TC Calculation 2.1.4 Dropout Voltage (VDO) 2.1.5 Line Regulation EQUATION 2-2: EQUATION 2-3: EQUATION 2-4: EQUATION 2-5: EQUATION 2-6: 2.1.6 Load Regulation EQUATION 2-7: EQUATION 2-8: EQUATION 2-9: EQUATION 2-10: EQUATION 2-11: 2.1.7 Power Supply Rejection Ratio (PSRR) 2.1.8 Long-Term Drift 2.1.9 Output Voltage Hysteresis 2.1.10 Layout Consideration for Load Regulation 3.0 Typical Operating Curves FIGURE 3-1: MCP1502-10 VREF Output vs. Temperature, VDD = 5.5V. FIGURE 3-2: MCP1502-20 VREF Output vs. Temperature, VDD = 5.5V. FIGURE 3-3: MCP1502-40 VREF Output vs. Temperature, VDD = 5.5V. FIGURE 3-4: Load Regulation vs. Temperature. FIGURE 3-5: IDD vs. Temperature. FIGURE 3-6: MCP1502 – Line Regulation vs. Temperature. FIGURE 3-7: IDD vs. VDD for All Options. FIGURE 3-8: Noise vs. Frequency, No Load, TA = +25°C. FIGURE 3-9: PSRR vs. Frequency, No Load, TA = +25°C. FIGURE 3-10: PSRR vs. Frequency, 1 kΩ Load, TA = +25°C. FIGURE 3-11: Dropout Voltage vs. Load, TA = +25°C. FIGURE 3-12: MCP1502 Tempco Distribution, No Load, VDD = 2.7V. FIGURE 3-13: MCP1502 Tempco Distribution, No Load, VDD = 5.5V. FIGURE 3-14: VOUT Drift vs. Time, TA = +25°C, No Load, 800 Units. FIGURE 3-15: MCP1502-10 VREF and Load Regulation vs. Load Current. FIGURE 3-16: MCP1502-20 VREF and Load Regulation vs. Load Current. FIGURE 3-17: MCP1502-40 VREF and Load Regulation vs. Load Current. FIGURE 3-18: MCP1502 Output Voltage Histogram, VDD = 2.7V. FIGURE 3-19: MCP1502 Output Voltage Histogram, VDD = 5.5V. FIGURE 3-20: Fast Ramp Start-up @ +25°C for All Options. FIGURE 3-21: Slow Ramp Start-up @ +25°C for All Options. FIGURE 3-22: IDD Turn-On Transient Response. FIGURE 3-23: Shutdown Low-to-High Slow Ramp Turn-On Transient Response @ +25°C for All Options. FIGURE 3-24: Load Regulation Transient Response @ +25°C for All Options. FIGURE 3-25: Line Regulation Transient Response @ +25°C for All Options. FIGURE 3-26: MCP1502-10 Transient Response vs. Capacitive Load, VDD = 5V. FIGURE 3-27: MCP1502-20 Transient Response vs. Capacitive Load, VDD = 5V. FIGURE 3-28: MCP1502-40 Transient Response vs. Capacitive Load, VDD = 5V. FIGURE 3-29: MCP1502-10 Transient Response vs. RS, VDD = 5V, CL = 4.7 nF. FIGURE 3-30: MCP1502-20 Transient Response vs. RS, VDD = 5V, CL = 4.7 nF. FIGURE 3-31: MCP1502-40 Transient Response vs. RS, VDD = 5V, CL = 4.7 nF. FIGURE 3-32: MCP1502-10 Transient Response vs. VDD, CL = 4.7 nF. FIGURE 3-33: MCP1502-20 Transient Response vs. VDD, CL = 4.7 nF. FIGURE 3-34: MCP1502-40 Transient Response vs. VDD, CL = 4.7 nF. 4.0 Theory of Operation 5.0 Application Circuits 5.1 Application Tips 5.1.1 Basic Application Circuit FIGURE 5-1: Basic Circuit Configuration. FIGURE 5-2: Output Noise Reducing Filter. EQUATION 5-1: 5.1.2 Load Capacitor 5.1.3 Printed Circuit Board Layout Considerations 5.2 Typical Applications Circuits 5.2.1 Negative Voltage Reference FIGURE 5-3: Negative Voltage Reference. 5.2.2 A/D Converter Reference FIGURE 5-4: ADC Example Circuit. FIGURE 5-5: SAR ADC Example Circuit. 6.0 Package Information 6.1 Package Markings Appendix A: Revision History Revision A (September 2021) Product Identification System Worldwide Sales and Service