Datasheet TMC828, TMC829 (Microchip) - 5

ManufacturerMicrochip
DescriptionSwitched Capacitor Voltage Converters
Pages / Page26 / 5 — TCM828/TCM829. 2.0. TYPICAL CHARACTERISTICS. Note:. = 4.75V, V. = – 4.0V. …
File Format / SizePDF / 368 Kb
Document LanguageEnglish

TCM828/TCM829. 2.0. TYPICAL CHARACTERISTICS. Note:. = 4.75V, V. = – 4.0V. OUT. ) 60. = 3.15V, V. = – 2.5V. TCM829. TCM828. = 1.9V, V. = –1.5V

TCM828/TCM829 2.0 TYPICAL CHARACTERISTICS Note: = 4.75V, V = – 4.0V OUT ) 60 = 3.15V, V = – 2.5V TCM829 TCM828 = 1.9V, V = –1.5V

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TCM828/TCM829 2.0 TYPICAL CHARACTERISTICS Note:
The graphs and tables provided following this note are a statistical summary based on a limited number of samples and are provided for informational purposes only. The performance characteristics listed herein are not tested or guaranteed. In some graphs or tables, the data presented may be outside the specified- operating range (e.g., outside specified power supply range) and therefore outside the warranted range.
Note:
Circuit of Figure 5-3, VIN = +5V, C1 = C2 = C3, TA = +25°C, unless otherwise noted.
70 40 V = 4.75V, V = – 4.0V IN OUT ) 60 35
Ω
30 50 V = 3.15V, V = – 2.5V IN OUT 25 40 20 30 TCM829 TCM828 15 20 V = 1.9V, V = –1.5V IN OUT 10 OUTPUT CURRENT (mA) OUTPUT RESISTANCE ( 10 5 0 0 1.5 2.5 3.5 4.5 0 10 20 30 40 SUPPLY VOLTAGE (V) CAPACITANCE (µF) FIGURE 2-1:
Output Resistance vs.
FIGURE 2-3:
TCM828 – Output Current Supply Voltage. vs. Capacitance.
80 40 V = 4.75V, V– = – 4.0V IN 70 35 )
Ω
VIN = 1.5V 60 30 V = 3.15V, V– = – 2.5V 50 25 IN 40 20 30 VIN = 3.3V 15 V = 1.9V, V 20 10 IN OUT = – 1.5V VIN = 5.0V OUTPUT CURRENT (mA) OUTPUT RESISTANCE ( 10 5 0 0 –40
°
C 0
°
C 25
°
C 85
°
C 0 5 10 15 20 25 30 35 TEMPERATURE (
°
C) CAPACITANCE (µF) FIGURE 2-2:
Output Resistance vs.
FIGURE 2-4:
TCM829 – Output Current Temperature. vs. Capacitance. © 2010 Microchip Technology Inc. DS21488B-page 5 Document Outline 1.0 Electrical Characteristics 2.0 Typical Characteristics FIGURE 2-1: Output Resistance vs. Supply Voltage. FIGURE 2-2: Output Resistance vs. Temperature. FIGURE 2-3: TCM828 – Output Current vs. Capacitance. FIGURE 2-4: TCM829 – Output Current vs. Capacitance. FIGURE 2-5: TCM828 – Output Voltage Ripple vs. Capacitance. FIGURE 2-6: TCM829 – Output Voltage Ripple vs. Capacitance. FIGURE 2-7: Supply Current vs. Supply Voltage. FIGURE 2-8: TCM828 – Pump Frequency vs. Temperature. FIGURE 2-9: TCM829 – Pump Frequency vs. Temperature. FIGURE 2-10: Output Voltage vs. Output Current. FIGURE 2-11: Efficiency vs. Output Current. 3.0 Pin Description TABLE 3-1: Pin Function Table 4.0 Detailed Description FIGURE 4-1: Ideal Switched Capacitor Charge Pump. 5.0 APPLICATIONS INFORMATION FIGURE 5-1: Ideal Switched Capacitor Model. FIGURE 5-2: Equivalent Output Resistance. TABLE 5-1: Output Resistance vs. C1 (ESR = 0.1W) TABLE 5-2: Output Voltage Ripple vs. C2 (ESR = 0.1W) IOUT 10mA FIGURE 5-3: Test Circuit. FIGURE 5-4: Cascading TCM828 or TCM829 Devices to Increase Output Voltage. FIGURE 5-5: Paralleling TCM828 or TCM829 Devices to Reduce Output Resistance. FIGURE 5-6: Combined Doubler and Inverter. FIGURE 5-7: High V– Load Current. 6.0 Packaging Information 6.1 Package Marking Information FIGURE 6-1: Component Taping Orientation for 5-Pin SOT-23 (EIAJ SC-74A) Devices. Corporate Office Atlanta Boston Chicago Cleveland Fax: 216-447-0643 Dallas Detroit Kokomo Toronto Fax: 852-2401-3431 Australia - Sydney China - Beijing China - Shanghai India - Bangalore Korea - Daegu Korea - Seoul Singapore Taiwan - Taipei Fax: 43-7242-2244-393 Denmark - Copenhagen France - Paris Germany - Munich Italy - Milan Spain - Madrid UK - Wokingham Worldwide Sales and Service Trademarks Worldwide Sales