MAX829 ONSEMI [ON Semiconductor], MAX829 Datasheet

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MAX829

Manufacturer Part Number
MAX829
Description
Switched Capacitor Voltage Converter
Manufacturer
ONSEMI [ON Semiconductor]
Datasheet
1.MAX829.pdf (18 pages)

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MAX828, MAX829
Switched Capacitor
Voltage Converter
inverters that are designed for operation over an input voltage range of
1.15 V to 5.5 V with an output current capability in excess of 50 mA.
The operating current consumption is only 68 mA for the MAX828 and
118 mA for the MAX829. The devices contain an internal oscillator
that operates at 12 kHz for the MAX828 and 35 kHz for the MAX829.
The oscillator drives four low resistance MOSFET switches, yielding
a low output resistance of 26 W and a voltage conversion efficiency of
99.9%. These devices require only two external capacitors, 10 mF for
the MAX828 and 3.3 mF for the MAX829, for a complete inverter
making it an ideal solution for numerous battery powered and board
level applications. The MAX828 and MAX829 are available in the
space saving Thin SOT−23−5 package.
Features
Typical Applications
July, 2004 − Rev. 3
The MAX828 and MAX829 are CMOS charge pump voltage
(MAX829)
Pb−Free Packages are Available
Operating Voltage Range of 1.15 V to 5.5 V
Output Current Capability in Excess of 50 mA
Low Current Consumption of 68 mA (MAX828) or 118 mA
Operation at 12 kHz (MAX828) or 35 kHz (MAX829)
Low Output Resistance of 26 W
Space Saving Thin SOT−23−5 Package
LCD Panel Bias
Cellular Telephones
Pagers
Personal Digital Assistants
Electronic Games
Digital Cameras
Camcorders
Hand−Held Instruments
Semiconductor Components Industries, LLC, 2004
This device contains 77 active transistors.
V
in
Figure 1. Typical Application
1
2
3
5
4
−V
out
1
MAX828EUKG
MAX829EUKG
†For information on tape and reel specifications,
MAX828EUK
MAX829EUK
including part orientation and tape sizes, please
refer to our Tape and Reel Packaging Specifications
Brochure, BRD8011/D.
5
Device
1
ORDERING INFORMATION
V
V
C
PIN CONFIGURATION
out
xxx = Device Code
Y
W = Work Week
in
http://onsemi.com
THIN SOT−23−5
Thin SOT−23−5*
= Year
1
2
3
CASE 483
MAX828 = EAA
MAX829 = EAB
SOT−23−5
SOT−23−5
SOT−23−5
SOT−23−5
(Pb−Free)
(Pb−Free)
(Top View)
Package
Thin
Thin
Thin
Thin
Publication Order Number:
5
4
3000 Tape/Reel
3000 Tape/Reel
3000 Tape/Reel
3000 Tape/Reel
5
1
GND
MARKING
DIAGRAM
C
Shipping
+
xxxYW
MAX828/D

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MAX829 Summary of contents

Page 1

... The operating current consumption is only 68 mA for the MAX828 and 118 mA for the MAX829. The devices contain an internal oscillator that operates at 12 kHz for the MAX828 and 35 kHz for the MAX829. The oscillator drives four low resistance MOSFET switches, yielding a low output resistance and a voltage conversion efficiency of 99 ...

Page 2

... qJA ) 2. Capacitors C and C contribution is approximately 20% of the total output resistance MAX828, MAX829 Symbol out I out qJA stg = 10 mF, for MAX829 5.0 V for MAX828 Symbol V 1 OSC R out V EFF P EFF http://onsemi.com 2 Value − ...

Page 3

... 5 100 −50 −25 T Figure 5. Output Resistance vs. Ambient 35 Figure 20 Test Setup Figure 7. Output Current vs. Capacitance MAX829 http://onsemi.com 2.0 2.5 3.0 3.5 4.0 4.5 5 SUPPLY VOLTAGE (V) in MAX829 ...

Page 4

... −2 1 −1.5 V out CAPACITANCE (mF Capacitance MAX829 − 2.5 3.0 3.5 4.0 4 SUPPLY VOLTAGE (V) in MAX829 AMBIENT TEMPERATURE ( C) A Temperature MAX829 50 5.0 100 ...

Page 5

... OUTPUT CURRENT (mA) out MAX829 Figure 20 Test Setup OUTPUT CURRENT (mA) out Output Current MAX829 5.0 mA out TIME = 10 ms/div MAX829 50 50 ...

Page 6

... W nominal and approximately −5 light in out loads, and drops according to the equation below: V DROP + I out R out V out + * ( DROP ) MAX828, MAX829 Charge Pump Efficiency −V out The overall power efficiency of the charge pump is affected by four factors ...

Page 7

... Capacitor Resources 36.8 Selecting the proper type of capacitor can reduce 26.0 switching loss. Low ESR capacitors are recommended. The 24.9 MAX828 and MAX829 were characterized using the capacitors listed in Table 3. This list identifies low ESR 25.1 capacitors for the voltage inverter application. 25.2 24 Manufacturer/Contact AVX AVX 843− ...

Page 8

... MAX828, MAX829 0 −1.0 −2.0 V −3.0 −4.0 −5.0 −6 Figure 26. Voltage Inverter Load Regulation Output Voltage vs. Output Current MAX829 −V out 5 1 OSC + MAX828 Capacitors = 10 mF MAX829 Capacitors = 3.3 mF http://onsemi.com ...

Page 9

... Note that curves A and C show the circuit performance with economical 1N4148 diodes, while curves B and D are with lower loss MBRA120E Schottky diodes. MAX828, MAX829 −1.0 −2.0 −3.0 −4.0 −5.0 B −6.0 −7.0 −8.0 −9.0 −10 Figure 29. Cascade Load Regulation, Output Voltage vs. Output Current MAX829 Curve V (V) R (W) in out A 3.0 173 B 5.0 141 C 3.0 179 D 5 ...

Page 10

... Note that curves A and C show the circuit performance with economical 1N4148 diodes, while curves B and D are with lower loss MBRA120E Schottky diodes. MAX828, MAX829 −2.0 −4.0 −6 −8 −10 Figure 32. Doubler Load Regulation, Output Voltage vs. Output Current MAX829 MAX828 R (W) V (V) Diodes out in A 3.0 1N4148 122 B 3.0 MBRA120E 114 C 5 ...

Page 11

... Note that curves A and C show the circuit performance with economical 1N4148 diodes, while curves B and D are with lower loss MBRA120E Schottky diodes. MAX828, MAX829 0.0 −2.0 −4.0 C −6.0 −8.0 D −10.0 −12 −14 Output Voltage vs. Output Current MAX829 MAX828 R (W) V (V) Diodes out in A 3.0 1N4148 259 B 3.0 MBRA120E 251 C 5.0 ...

Page 12

... The performance characteristics for the above converter are shown below. Note that curves A and C show the circuit performance with economical 1N4148 diodes, while curves B and D are with lower loss MBRA120E Schottky diodes. MAX828, MAX829 10.0 D 8.0 C 6 Output Voltage vs. Output Current MAX829 MAX828 R V (V) Diodes out in A 3.0 1N4148 32.5 B 3.0 MBRA120E 27 ...

Page 13

... The performance characteristics for a converter consisting of two paralleled devices is shown below. MAX828, MAX829 14.0 D 12.0 10.0 C 8.0 6 Output Voltage vs. Output Current MAX829 MAX828 R (W) V (V) Diodes out in A 3.0 1N4148 110 B 3.0 MBRA120E 96 ...

Page 14

... Figure 45. External Switch for Increased Negative Output Current The output current capability of the MAX828 and MAX829 can be extended beyond 600 mA with the addition of two external switch transistors and two Schottky diodes. The output voltage is approximately equal to −V base emitter drops of both transistors and the forward voltage of both diodes. The performance characteristics for the converter are shown below ...

Page 15

... Boosted Load Regulation, Output Voltage vs. Output Current, MAX828 MAX828, MAX829 −2.0 −2.2 −2.4 −2.6 − −3.0 out −3.2 0.4 0.5 0.6 0 0.1 Figure 47. Current Boosted Load Regulation, Output Voltage vs. Output Current MAX829 OSC Q 1 Capacitors = 220 PZT751 PZT651 ...

Page 16

... R out 9.0 8.5 −4.0 Negative Inverter −4 out −5 POSITIVE DOUBLER OUTPUT CURRENT (mA) out Figure 55. Positive Doubler Load Regulation, Output Voltage vs. Output Current, MAX829 http://onsemi.com 16 −V out + MAX828: Capacitors = 10 mF MAX829: Capacitors = 3 out + Positive Doubler out = 28 W Negative Inverter R ...

Page 17

... MAX828, MAX829 + IC1 GND 0.5 Inverter Size = 0 0 Area = 0. 64.5 mm Figure 56. Inverter Circuit Board Layout, Top View Copper Side http://onsemi.com −V out GND + 2 ...

Page 18

... P.O. Box 61312, Phoenix, Arizona 85082−1312 USA Phone: 480−829−7710 or 800−344−3860 Toll Free USA/Canada Fax: 480−829−7709 or 800−344−3867 Toll Free USA/Canada Email: orderlit@onsemi.com MAX828, MAX829 PACKAGE DIMENSIONS THIN SOT−23−5 PLASTIC PACKAGE CASE 483−01 ...

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