IRU1010 DROPOUT POSITIVE ADJUSTABLE REGULATOR DESCRIPTION IR
|
|
|
Top Searches for this datasheet
Data Sheet PD94119
IRU1010
DROPOUT POSITIVE ADJUSTABLE REGULATOR DESCRIPTION
IRU1010 dropout, three-terminal adjustable regulator with minimum output current capability. This product specifically designed provide well regulated supply voltage applications such high speed termination current 3.3V logic supply. IRU1010 also well suited other applications such sound cards. IRU1010 guaranteed have <1.3V dropout full load current making ideal provide well regulated outputs 2.5V 3.6V with 4.75V input supply.
FEATURES
Guaranteed 1.3V Dropout Full Load Current Fast Transient Response Voltage Reference Initial Accuracy Built-In Thermal Shutdown Available SOT-223, D-Pak, Ultra Thin-Pak 8-Pin SOIC Surface-Mount Packages
APPLICATIONS
Sound Card Applications Voltage High Speed Termination Applications Standard 3.3V Chip Logic Applications
TYPICAL APPLICATION
10uF
IRU1010
VOUT
2.85V
22uF
Figure Typical application IRU1010 2.85V SCSI termination regulator.
PACKAGE ORDER INFORMATION
(°C) 2-PIN PLASTIC TO-252 (D-Pak) IRU1010CD 2-PIN PLASTIC Ultra Thin-Pak(P) IRU1010CP 8-PIN PLASTIC SOIC IRU1010CS 3-PIN PLASTIC SOT-223 IRU1010CY
Rev. 02/03/03
www.irf.com
IRU1010
ABSOLUTE MAXIMUM RATINGS
Input Voltage Power Dissipation Storage Temperature Range Operating Junction Temperature Range Internally Limited -65°C 150°C 150°C
PACKAGE INFORMATION
2-PIN PLASTIC TO-252 (D-Pak)
FRONT VIEW
2-PIN ULTRA THIN-PAK(P)
FRONT VIEW
8-PIN PLASTIC SOIC
VIEW
3-PIN PLASTIC SOT-223
VIEW
VOUT VOUT VOUT VOUT VOUT
VOUT
VOUT
JA=708C/W 0.5"
JA=708C/W 0.5"
JA=558C/W
JA=908C/W 0.4"
ELECTRICAL SPECIFICATIONS
Unless otherwise specified, these specifications apply over CIN=1mF, COUT=10mF, TJ=0 1508C. Typical values refer TJ=258C. PARAMETER Reference Voltage Line Regulation Load Regulation (Note Dropout Voltage (Note Current Limit Minimum Load Current (Note Thermal Regulation Ripple Rejection Adjust Current Adjust Current Change Temperature Stability Long Term Stability Output Noise VREF TEST CONDITION Io=10mA, TJ=258C, IN-Vo)=1.5V Io=10mA, IN-Vo)=1.5V Io=10mA, 1.3V<(V IN-Vo)<7V VIN=3.3V, VADJ=0, 10mA<Io<1A Note Io=1A VIN=3.3V, DVo=100mV VIN=3.3V, ADJ=0V 30ms Pulse, VIN-Vo=3V, Io=1A f=120Hz, Co=25mF Tantalum, Io=0.5A, VIN-Vo=3V Io=10mA, VIN-Vo=1.5V, TJ=258C, Io=10mA, VIN-Vo=1.5V Io=10mA, VIN-Vo=1.5V, TJ=258C VIN=3.3V, VADJ=0V, Io=10mA TJ=1258C, 1000Hrs TJ=258C, 10Hz<f<10KHz 1.238 1.225 1.250 1.250 1.262 1.275 0.02 UNITS
0.01 0.003
IADJ
Note duty cycle pulse testing with Kelvin connections required order maintain accurate data. Note Dropout voltage defined minimum differential voltage between VOUT required maintain regulation VOUT. measured when output voltage drops below nominal value.
Note Minimum load current defined minimum current required output order output voltage maintain regulation. Typically, resistor dividers selected such that automatically maintains this current.
www.irf.com
Rev. 02/03/03
IRU1010
DESCRIPTIONS
SYMBOL VOUT DESCRIPTION resistor divider from this VOUT ground sets output voltage. output regulator. minimum 10mF capacitor must connected from this ground insure stability. input regulator. Typically large storage capacitor connected from this ground insure that input voltage does below minimum dropout voltage during load transient response. This must always 1.3V higher than order device regulate properly.
BLOCK DIAGRAM
VOUT
1.25V CURRENT LIMIT
THERMAL SHUTDOWN
Figure Simplified block diagram IRU1010.
APPLICATION INFORMATION
Introduction
IRU1010 adjustable Dropout (LDO) regulator three-terminal device which easily programmed with addition external resistors voltages within range 1.25 5.5V. This regulator, unlike first generation three-terminal regulators such LM117 that required differential between input regulated output, only needs 1.3V differential maintain output regulation. This requirement today's voltage applications that typically need 3.3V supply often generated from supply. Other applications such high speed
Rev. 02/03/03
memory termination need switch load current from zero full load tens nanoseconds their pins, which translates approximately 500ns current step regulator. addition, output voltage tolerances sometimes tight they include transient response part specification. IRU1010 specifically designed meet fast current transient needs well providing accurate initial voltage, reducing overall system cost with need fewer output capacitors.
www.irf.com
IRU1010
Output Voltage Setting IRU1010 programmed voltages range 1.25V 5.5V with addition external resistors according following formula: VOUT VREF3 load side, effective resistance between regulator load gained factor R2/R1), effective resistance will RP(eff) =RP3(1+ R2/R1). important note that high current applications, this represent significant percentage overall load regulation must keep path from regulator load short possible minimize this effect.
PARASITIC LINE RESISTANCE
Where: VREF 1.25V Typically IADJ 50mA Typically shown Figure
VOUT
IRU1010
Vout
IRU1010
IADJ 50uA
Figure Schematic showing connection best load regulation. Figure Typical application IRU1010 programming output voltage. IRU1010 keeps constant 1.25V between output adjust pin. placing resistor across these pins constant current flows through adding IADJ current into resistor producing voltage equal (1.25/R1)3R2+IADJ3R2 which will added 1.25V output voltage. This summarized above equation. Since minimum load current requirement IRU1010 10mA, typically selected 121V resistor that automatically satisfies minimum current requirement. Notice that since IADJ typically range 50mA only adds small error output voltage should only considered when very precise output voltage setting required. example, typical 3.3V application where R1=121V R2=200V error IADJ only 0.3% nominal point. Load Regulation Since IRU1010 only three-terminal device, possible provide true remote sensing output voltage load. Figure shows that best load regulation achieved when bottom side connected load side resistor connected directly case VOUT regulator load. fact, connected Stability IRU1010 requires output capacitor part frequency compensation order make regulator stable. Typical designs microprocessor applications standard electrolytic capacitors with typical range 100mV output capacitance 1000mF. Fortunately capacitance increases, decreases resulting fixed time constant. IRU1010 takes advantage this phenomena making overall regulator loop stable. most applications minimum 100mF aluminum electrolytic capacitor such Sanyo MVGX series, Panasonic series well Nichicon series insures both stability good transient response. Thermal Design IRU1010 incorporates internal thermal shutdown that protects device when junction temperature exceeds maximum allowable junction temperature. Although this device operate with junction temperatures range 1508C, recommended that selected heat sink chosen such that during maximum continuous load operation junction temperature kept below this number. next example SCSI terminator application shows steps sellecting proper regulator surface-mount package. (See IRU1015 non-surface-mount packages)
www.irf.com
Rev. 02/03/03
IRU1010
Assuming following specifications: 0.5V VOUT 2.85V IOUT(MAX) 0.8A 358C Where: forward voltage drop diode shown Figure steps selecting right package with proper board area heatsinking keep junction temperature below 1358C given Calculate maximum power dissipation using: IOUT VOUT) 2.85) 1.32W Calculate maximum uJA(MAX)
output voltage, need select Assuming 121V,
2.85 3121 154.8V 1.25
Select 154V,
10uF
2.85V
22uF
IRU1010
allowed example:
Figure Final Schematic half GTL+ termination regulator.
75.68C/W 1.32
Select package from datasheet with lower than calculated previous step.
Selecting TO-252 (D-Pak) with least 0.5" square 0.062" board using copper which lower than calculated number.
Layout Consideration output capacitors must located close VOUT terminal device possible. recommended section layer board plane connect output capacitors prevent high frequency oscillation that result excessive trace inductance.
WORLD HEADQUARTERS: Kansas St., Segundo, California 90245, Tel: (310) 252-7105 Fax: (310) 252-7903 Visit www.irf.com sales contact information Data specifications subject change without notice. 02/01
Rev. 02/03/03
www.irf.com
IRU1010
TO-252 Package 2-Pin
SYMBOL 6.477 6.731 5.004 5.207 0.686 0.838 7.417 8.179 9.703 10.084 0.635 0.889 2.286 4.521 4.623 &1.52 &1.62 2.184 2.388 0.762 0.864 1.016 1.118 5.969 6.223 1.016 1.118 0.102 0.534 0.686 R0.31 R0.51 0.428 0.588
NOTE: MEASUREMENTS MILLIMETERS.
www.irf.com
Rev. 02/03/03
IRU1010
Ultra Thin-Pak2-Pin
SYMBOL
5.91 6.17 5.54 5.79 6.02 6.27 1.70 2.03 0.63 0.79 0.17 0.33 2.16 2.41 4.45 4.70 9.42 9.68 0.76 1.27 0.02 0.13 0.89 1.14 0.25 0.25 0.94 1.19 2.92 3.30 5.08
NOTE: MEASUREMENTS MILLIMETERS.
Rev. 02/03/03
www.irf.com
IRU1010
SOIC Package 8-Pin Surface Mount, Narrow Body
DETAIL-A 0.386 0.015
DETAIL-A
8-PIN SYMBOL 4.80 4.98 1.27 0.53 0.36 0.46 3.81 3.99 1.52 1.72 0.10 0.25 0.19 0.25 5.80 6.20 0.41 1.27 1.37 1.57
NOTE: MEASUREMENTS MILLIMETERS.
www.irf.com
Rev. 02/03/03
IRU1010
SOT-223 Package 3-Pin
SYMBOL
1.498 0.02 2.895 0.637 0.239 6.299 3.30 2.209 4.496 6.70 0.838 1.092
1.702 0.11 3.15 0.85 0.381 6.706 3.708 2.953 4.699 7.30 1.05 1.30
NOTE: MEASUREMENTS MILLIMETERS.
Rev. 02/03/03
www.irf.com
IRU1010
PACKAGE SHIPMENT METHOD
DESIG PACKAGE DESCRIPTION TO-252, (D-Pak) Ultra Thin-Pak SOT-223
COUNT
PARTS TUBE
PARTS REEL 2500 2500 2500 2500
Orientation
SOIC, Narrow Body
Feed Direction Figure
Feed Direction Figure
Feed Direction Figure
Feed Direction Figure
WORLD HEADQUARTERS: Kansas St., Segundo, California 90245, Tel: (310) 252-7105 Fax: (310) 252-7903 Visit www.irf.com sales contact information Data specifications subject change without notice. 02/01
www.irf.com
Rev. 02/03/03
Other recent searches
U15260EJ3V1UM00 - U15260EJ3V1UM00 U15260EJ3V1UM00 Datasheet
SN754410 - SN754410 SN754410 Datasheet
SCAA005A - SCAA005A SCAA005A Datasheet
IRFR9024PbF - IRFR9024PbF IRFR9024PbF Datasheet
IRFU9024PbF - IRFU9024PbF IRFU9024PbF Datasheet
HD74LV1GT00A - HD74LV1GT00A HD74LV1GT00A Datasheet
BC857S - BC857S BC857S Datasheet
Privacy Policy | Disclaimer
© 2012 Datasheet Archive
