TOREX XC6217 Series Manual
Contents
1. Ta 40 C Ta 85 C Output Current Lou mA HighSpeed mode XC6217x302 Vin Vce 4 0V Vao Vin A B Type Ciy C_ 1 0 u F ceramic Ta 85 C 100 200 300 400 Output Current Iour mA HighSpeed mode XC6217x182 Voe Vin Voo Viv A B Type Ta 25 C Ciy C_ 1 0 u F ceramic Output Voltage Vout V IOUT 1mA IOUT 10mA 777 JOUT 30mA IOUT 100mA 5 5 9 6 Input Voltage Vin V XC6217 Series i YPICAL PERFORMANCE CHARACTERISTICS Continued 2 Output Voltage vs Input Voltage Continued i HighSpeed mod XC6217x302 HighSpeed mode XC6217x302 ighopeed mode Vor Vin Vao Vi A B Type Ta 25 C Vce7Vm Vao V n A B Type Ta 25 C Ciy C_ 1 0 u F ceramic Cin C_ 1 0 u F ceramic 3 05 s s E 5 3 gt gt 3 8 295 E E 5 IOUT 1mA 5 29 IOUT 1mA R IOUT 10mA a IOUT 10mA IOUT 30mA 285 IOUT 30mA IOUT 100mA IOUT 100mA yp 2 25 3 3 5 4 4 45 5 5 5 6 Input Voltage V n V Input Voltage Vin V 3 Dropout Voltage vs Output Current HighSpeed mod XC6217x182 Ighepege mooe XC6217x302 HighSpeed mode Voe Vin Vao Vin A B Type Voe Vin VaozVin A B Type jA Ciy C_ 1 0 u F ceramic T Ciy C_ 1 0 u F ceramic 0 35 0 35 Ta 85 C z Ta 85 C lt 03 lt 03 92. Iour mA TOIREX 19 33 XC6217 series MTYPICAL PERFORMANCE CHARACTERISTICS Continued 9 Load Transient Response GO mod i XC6217x302 mode XG8219x302 HighSpeed mode Vin Vce 4 0V Vao7Vss A B Type Tr Tf 5 u s Vin Vce 4 0V Voo ViN A B Type Tr Tf 5 u s Ga Ta 25 C CnEC 1 uF ceramic 365 ay Ta 25 C Cn CL 1 4 F ceramic 300 Output Vi 250 3 GES 250 s 2 S lt E e 200 29 200 o o 5 gt gt a 2 3 150 S 28 150 8 o E gt gt 3 5 put Current 5 Output Current 2 ao 5 100 8 S 27 100 8 o o o 50 26 50 0 2 5 0 Time 500 u s div Time 500 u s div 10 Line Transient Response HighSpeed mode HighSpeed mode XC6217x182 XC6217x182 Voe Vin Vao Vi A B Type Tr Tf 5 us Voe Vin Vao Vin A B Type Tr Tf 5 u s lour 1mA Ta 25 C CL 1 u F ceramic Iour 30mA Ta 25 C CL 1 u F ceramic 5 5 2 Input Voltage Input Voltage 4 i 195 1 95 E s E s gt RE gt s 19 5 gt 19 5 gt gt gt gt g e amp 2 185 3 E 185 8 B o o s Output Voltage A Output Voltage sa Fe gt 1 118 18 S o o 0 1 75 1 75 1 1 7 1 7 Time 20 u s div Time 20 u s div HighSpeed mode XC6217x182 Voe Vin VaozVin A B Type Tr Tf 5 u s lour 100mA Ta 25 C CL 1 u F ceramic Input Voltage EI to Output Volt
3. 1 85 3 3 40 3 45 L 1 90 1 95 4 3 50 3 55 M 2 00 2 05 5 3 60 3 65 N 2 10 2 15 6 3 70 3 75 P 2 20 2 25 7 0 80 3 80 0 85 3 85 R 2 30 2 35 8 0 90 3 90 0 95 3 95 S 2 40 2 45 9 1 00 4 00 1 05 T 2 50 2 55 A 1 10 1 15 U 2 60 2 65 B 1 20 1 25 V 2 70 2 75 C 1 30 1 35 X 2 80 2 85 D 1 40 1 45 Y 2 90 2 95 E 1 50 1 55 Z 3 00 3 05 USPN 4 0 80V lt SVourm 1 55V underdevelopment represents production lot number 1 to 9 Ato Z repeated G I J O Q W excluded Note No character inversion used XC6217 Series The products and product specifications contained herein are subject to change without notice to improve performance characteristics Consult us or our representatives before use to confirm that the information in this datasheet is up to date We assume no responsibility for any infringement of patents patent rights or other rights arising from the use of any information and circuitry in this datasheet Please ensure suitable shipping controls including fail safe designs and aging protection are in force for equipment employing products listed in this datasheet The products in this datasheet are not developed designed or approved for use with such equipment whose failure of malfunction can be reasonably expected to directly endanger the life of or cause significant injury to the user e g Atomic energy aerospace transpo
4. 5200 1 4300 1 5500 1 55 1 5200 1 5800 1 460 1 6200 1 5300 1 5700 1 4800 1 6000 1 60 1 5700 1 6300 1 5280 1 6560 1 5800 1 6200 1 5440 1 6400 1 65 1 6200 1 6800 1 5758 1 7078 1 6300 1 6700 1 5923 1 6913 1 70 1 6700 1 7300 1 6235 1 7595 1 6800 1 7200 1 6405 1 7425 1 75 1 7200 1 7800 1 6713 1 8113 1 7300 1 770 1 6888 1 7938 1 80 1 7700 1 8300 1 7190 1 8630 1 7800 1 8200 1 7370 1 8450 1 85 1 8200 1 8800 1 7668 1 9148 1 8300 1 8700 1 7853 1 8963 1 90 1 8700 1 9300 1 8145 1 9665 1 8800 1 9200 1 8335 1 9475 1 95 1 9200 1 9800 1 8623 2 0183 1 9300 1 9700 1 8818 1 9998 2 00 1 9600 2 0400 1 9100 2 0700 1 9800 2 0200 1 9300 2 0500 2 05 2 0090 2 0910 1 9578 2 1218 2 0295 2 0705 1 9783 2 1013 2 10 2 0850 2 1420 2 0055 2 1735 2 0790 2 1210 2 0265 2 1525 2 15 2 1070 2 1930 2 0533 2 2253 2 1285 2 1715 2 0748 2 2038 2 20 2 1560 2 2440 2 1010 2 2770 2 1780 2 2220 2 1230 2 2550 2 25 2 2050 2 2950 2 1488 2 3288 2 2275 2 2725 2 1713 2 3063 2 30 2 2540 2 3460 2 1965 2 3805 2 2770 2 3230 2 2195 2 3575 2 35 2 3030 2 3970 2 2443 2 4323 2 3265 2 3735 2 2678 2 4088 2 40 2 3520 2 4480 2 2920 2 4840 2 3760 2 4240 2 3160 2 4600 2 45 2 4010 2 4990 2 3398 2 5358 2 4255 2 4745 2 3646 2 5113 2 50 2 4500 2 5500 2 3875 2 5875 2 4750 2 5250 2 4125 2 5625 2 55 2 4990 2 6010 2 4353 2 6393 2 5245 2 5755 2 4608 2 6138 2 60 2 5480 2 6520 2 5090 2 6650 2 5740 2 6260 2 5350 2 6390 2 65 2 5970 2 7030 2 5573 2 7163 2 6235 2 6765 2 5838 2 6898 2 70 2 6460 2 7540 2 6055 2 7675 2 6730 2 7270 2 6325 2
5. 7405 2 75 2 6950 2 8050 2 6538 2 8188 2 7225 2 7775 2 6813 2 7913 2 80 2 7440 2 8560 2 7020 2 8700 2 7720 2 8280 2 7300 2 8420 2 85 2 7930 2 9070 2 7503 2 9213 2 8215 2 8785 2 7788 2 8928 2 90 2 8420 2 9580 2 7985 2 9725 2 8710 2 9290 2 8275 2 9435 2 95 2 8910 3 0090 2 8468 3 0238 2 9205 2 9795 2 8763 2 9943 USPN 4 0 80V Vourn 1 55V underdevelopment TOIREX 9 33 XC6217 series OUTPUT VOLTAGE CHART Continued SYMBOL E 0 EA E 2 E 3 NOMINAL OUTPUT VOLTAGE OUTPUT VOLTAGE OUTPUT VOLTAGE OUTPUT VOLTAGE in HS MODE PS MODE HS MODE PS MODE V Standard V Standard V High Accuracy V High Accuracy V Vour E Vour E Vour E Vour E Vour r MIN MAX MIN MAX MIN MAX MIN MAX 3 00 2 9400 3 0600 2 8950 3 0750 2 9700 3 0300 2 9250 3 0450 3 05 2 8990 3 1100 2 9433 3 1263 3 0195 3 0805 2 9738 3 0958 3 10 3 0380 3 1620 2 9915 3 1775 3 0690 3 1310 3 0225 3 1465 3 15 3 0870 3 2130 3 0398 3 2288 3 1185 3 1815 3 0713 3 1973 3 20 3 1360 3 2640 3 0880 3 2800 3 1680 3 2320 3 1200 3 2480 3 25 3 1850 3 3150 3 1363 3 3313 3 2175 3 2825 3 1688 3 2988 3 30 3 2340 3 3660 3 1845 3 3825 3 2670 3 3330 3 2175 3 3495 3 35 3 2830 3 4170 3 2328 3 4338 3 3165 3 3835 3 2663 3 4003 3 40 3 3320 3 4680 3 2810 3 4850 3 3660 3 4340 3 3150 3 4510 3 45 3 3810 3 5190 3 3293 3 5363 3 4155 3 4845 3 3638 3 5018 3 50 3 4300 3 570 3 3775 3 5875 3 4650 3 5350 3 4125 3 5525 3 5
6. 85 105 Ambient Temperature Ta C 125 28 33 XC6217 Series i MARKING RULE SOT 25 represents product series MARK PRODUCT SERIES 1 XC6217XXXXxx represents type of regulators MARK SOT 25 OUTPUT VOLTAGE OUTPUT VOLTAGE PRODUCT SERIES TOP VIEW 0 1V INCREMENTS 0 05V INCREMENTS 0 80V 3 00V 3 10V 4 00V 0 85V 3 05V 3 15V 3 95V V A E L XC6217AXxxxx X B F M XC6217Bxxxxx represents output voltage MARK OUTPUT VOLTAGE V MARK OUTPUT VOLTAGE V 0 3 10 3 15 F 1 60 1 65 1 3 20 3 25 H 1 70 1 75 2 3 30 3 35 K 1 80 1 85 3 3 40 3 45 L 1 90 1 95 4 3 50 3 55 M 2 00 2 05 5 3 60 3 65 N 2 10 2 15 6 3 70 3 75 P 2 20 2 25 7 0 80 3 80 0 85 3 85 R 2 30 2 35 8 0 90 3 90 0 95 3 95 S 2 40 2 45 9 1 00 4 00 1 05 T 2 50 2 55 A 1 10 1 15 U 2 60 2 65 B 1 20 1 25 V 2 70 2 75 C 1 30 1 35 x 2 80 2 85 D 1 40 1 45 Y 2 90 2 95 E 1 50 1 55 Z 3 00 3 05 45 represents production lot number 01 to 09 10 to 99 OA OZ 1A in order Note No character inversion used G I J O Q W excluded TOIREK 29 33 XC6217 series i MARKING RULE Continued SSOT 24 I I CD represents type of regulators and o
7. 9 Load Transient Response GO mode XC6217x182 Vin Vce 2 8V Vao Vss A B Type Tr Tf 5 u s Ta 25 C Cy C_ 1 u F ceramic 19 300 Output Voltage 1 8 250 E E 5 17 200 3 3 S 16 150 5 o E 5 S 15 100 8 o o Output Current 50mA 14 50 0 1mA 1 3 0 Time 500 u s div HighSpeed mode XC6217x182 Vin Vce 2 8V Vao Vi A B Type Tr Tf 5 u s Ta 25 C Cn CL 1 HE ceramic oltage put Current Output Voltage Vour V Time 500 u s div Output Current lour mA XC6217x181 Vin Vce 2 8V Vao Vss A B Type Ciy C_ 1 0 u F ceramic 8 PS HS Switching Current vs Ambient Temperature GO mode Output Voltage Vour V XC6217x302 Vin Vce 4 0V Vco Vss A B Type Tr Tf 5 u s Ta 25 C Ges UE ceramic put Cu rrent Time 500 u s div 9 8 HS Sw itching Current lt PS Switching Current Eo 5 Qt D c 5 D 4 3 a 5 3 o 2 1 0 50 25 0 25 50 75 100 Ambient Temperature Topr C GO mode XC6217x182 Vin Vce 2 8V Vao Vss A B Type Tr Tf 5 u s Ta 25 C CnEC 1 UF ceramic IN OL 300 Output Voltage 1 8 250 E 517 200 o 2 gt S 9 A op c 8 16 150 2 5 gt o e Outiput Current be a 100mA 5 5 15 100 o o 14 50 0 1mA 1 3 0 Time 500 u s div GO mode Output Current
8. 975 3 x1 015 V 1 Vco 7Vss Vce Vin lour 0 1mA Power Save Mode PS 1 60V lt Vourm lt 2 55V x 0 965 x 1 025 Veo Vss Vce Vin lout 0 1mA Power save mode PS 0 80V lt Vourm lt 1 55V 0 07 0 05 Veo Vss Vce Vin lour 0 1mA V6o Vin HS Vce Vin Output Current loUTMAX ViNZVouT T 1 0V 200 250 mA 1 0 80 V lt VouTT lt 4 00V Voo Vin HS Vce Vin Load Regulation AVout 0 1mA loyr 2100mA 10 40 mV 1 Dropout Voltage 4 Vdif Vco Vin HS Vce Vin lour 100MA E 4 mv 1 Supply Current 1 Issi Vce Vin Veo Vin HS lour 0mA 25 50 uA 2 Supply Current 2 Iss2 Vce Vin V6o Vss PS Iour 0mA 4 5 8 0 uA 2 Standby Current Ista Vin 6 0V Vce Vss 0 01 0 10 UA 2 Vourm 0 5VSVn 6 0V VournZ1 10V I AVout Veo Vin HS VcE ViN lour 10mA Line Regulation AV Vout 6v V E6 0V 0 01 0 20 V 1 Vourn 1 05V Vco V n HS Vce Vin lour 10mA 0 80V Voyrn 1 55V 16 E 6 0 Input Voltage Vin 1 60V EVourm 4 00V 18 6 0 x 1 TOIREX 5 33 XC6217 series ELECTRICAL CHARACTERISTICS Continued XC6217A B series Continued PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS CIRCUIT AVout Veo Vin HS Vce Vin Output Voltage AT Vou loyr 30mA _ ee I opt i Temperature Characteristics S S 40 C lt Tas85 C V n Vourm 1 0 Voc 0 5Vp pac 0 85V lt Vourn 4 00V Voeo Vin HS Vce Vin X Sam lour 30mA f 1kHz
9. Ripple Rejection Rate PSRR Vin 1 85Vpct0 5Vp pac 70 dB 3 VouTT 0 80V Voo Vin HS Vce Vin lour 30mA f 1kHz Limit Current lum Vco Vin HS Vce Vin 200 250 u mA 1 Voeo Vin HS Vce Vin Short Current IsHoRT Vout is short circuited to the Vss level 30 mA 1 Vce Vin PS Switching Current IGOR Vco7Vss GO mode 0 5 mA 4 lour heavy to light load Vce Vin Vao Vss GO mode HS Switching Current Ico lour light to heavy load 8 0 mA 4 Switch u Igohys Iconys Ico Icon 3 5 mA 4 PS Switching Delay Time 7 tops Vce Vin Vco Vss GO mode E 5 us 4 CE High Level Voltage VcEH 1 2 6 0 V 4 GO High Level Voltage Moon Vce Vin Iss Search lour 0mA 1 2 6 0 V 4 CE Low Level Voltage VcEL 0 3 V 4 GO Low Level Voltage Moo Vce Vin Iss Search lour 0mA 0 3 V 4 CE High Level Current IceH Veo Vin Vce VinN 0 1 0 1 UA 4 GO High Level Current Icon Veo Vin Vce VinN 0 1 0 1 UA 4 CE Low Level Current IceL Vce Vss Veo Vss 0 1 0 1 UA 4 GO Low Level Current EH Vce Vss Veo Vss 0 1 0 1 UA 4 ADDEN Rocks Vin 6 0V Vour 4 00V Vee Veo Vss 780 Q 1 Resistance 8 NOTE 1 Unless otherwise stated regarding input voltage conditions V n Vourm 1 0V 2 Vout g Effective output voltage Refer to the voltage chart E 0 to E 3 I e the output voltage when an amply stabilized Vout m 1 0V is provided at the Vin pin while maintaining a
10. XC6217 Series PACKAGING INFORMATION USP 4D SOT 25 unit mm unit mm 1 2 0 08 29 02 0 0 4 0 05 8 5 4 Sg kr Eu 3 Ipin INDENT 1 2 3 0 95 l I EE Soldering fillet surface is not formed because the sides of the pins are plated SSOT 24 USPN 4 unit mm unit mm 0 9 0 05 3 SM y _ at i TOIREX 25 33 XC6217 series E PACKAGING INFORMATION Continued USP 4D Reference Pattern Layout Dimension USP 4D Reference metal mask design 1 05 26 33 XC6217 Series USP 4D Power Dissipation Power dissipation data for the USP 4D is shown in this page The value of power dissipation varies with the mount board conditions Please use this data as one of reference data taken in the described condition 40 1 Measurement Condition Reference data Condition Mount on a board Ambient Natural convection Soldering Lead Pb free Board Dimensions 40 x 40 mm 1600 mm in one side Copper Cu traces occupy 50 of the board area In top and back faces Package heat sink is tied to the copper traces Material Glass Epoxy FR 4 Thickness 1 6 mm Through hole 4 x 0 8 Diameter 40 2 Power Dissipation vs Ambient Temperature 2 54 1 4
11. XC6217C D types Circuit 3 Ripple Rejection Rate No GO pin with the XC6217C D types 14 33 XC6217 Series TEST CIRCUITS Continued Circuit 4 Supply Current HS PS Switching Current PS Switching Delay Time CE GO H L Level Voltage CE GO H L Level Current han No GO pin with the XC6217C D types TOIREX N 15 33 XC6217 series B YPICAL PERFORMANCE CHARACTERISTICS 1 Output Voltage vs Output Current Output Voltage Vour V Output Voltage Vour V Output Voltage Vour V HighSpeed mode XC6217x182 VeezVin VaozVin A B Type Ta 25 C Cw7C 71 0 u F ceramic VIN 1 9V VIN 2 8V VIN 6 0V 100 200 300 400 Output Current Iour mA HighSpeed mode XC6217x302 Voe Vin Vao Vi A B Type Ta 25 C C70 71 0 u F ceramic 35 3 E Ne ue 25 2 15 1 4 VIN 3 1V VIN 4 0V 0 5 VIN 6 0V 0 at 100 200 300 400 Output Current Lou mA 2 Output Voltage vs Input Voltage HighSpeed mode XC6217x182 Vog Vin Voo Vin A B Type Ta 25 C Ciy C_ 1 0 u F ceramic e A yf di A IOUT ImA ec cu c ss IOUT 10mA CJ JOUT 30mA IOUT 100mA d 15 2 25 3 Input Voltage Vin V 24 Output Voltage Vour V 35 25 15 Output Voltage Vour V 0 5 HighSpeed mode XC6217x182 Vin Voe 2 8V Vao V n A B Type C70 71 0 4 F ceramic Ta 25 C
12. certain lour value 3 Vout m Nominal output voltage 4 Vdif Vin1 6 Vout1 5 5 Vouri A voltage equal to 98 of the output voltage whenever an amply stabilized lout Vourc 1 0V is input in the HS mode 6 Vin The input voltage when Vour appears as input voltage is gradually decreased 7 Time until HS mode is changed to PS mode by Icor 8 For the XC6217B series only The XC6217A series discharges by resistors R1 and R2 only as shown in the block diagrams 6 33 XC6217 Series BELECTRICAL CHARACTERISTICS Continued XC6217C D series Ta 25 C PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS CIRCUIT Output Voltage Standard Vour E 2 High Speed Mode HS Vourmes2 00V Vce Vin lour 10mA x 0 98 3 High Speed Mode HS Vourtn 1 95V Vce Vin lour 10mA 0 03 3 Power Save Mode PS Vout 22 60V Vce Vin lour 0 1mA x0 965 3 Power Save Mode PS 1 60V Vour r 2 55V Vce Vin lour 0 1mA x 0 955 3 Power Save Mode PS 0 80V lt SVournS1 55V Vce Vin lour 0 ImA 0 09 3 Vour r 3 x 1 02 0 03 x1 025 x 1 035 0 07 Output Voltage High Accuracy Vour E 2 High Speed Mode HS VournZ2 00V Vce Vin lour 10mA x 0 99 High Speed Mode HS Vourn 1 95V Vce Vin lour 10mA Power Save Mode PS Vout 2 60V Vce Vin lour 0 1mA 0 02 x0 975 Power Sav
13. s 5 Iour 30mA Ta 25 C Cw C 71 0 u F ceramic A 5 lour 100mA Ta 25 C CyZC 1 0 u F ceramic K CE Input Voltage CE Input Voltage 7 4 7 BR 6 2 3 6 E s S S 5 3 2 2 5 3 PR gt u gt a S ae S amp a 48 i 48 7 Output Voltage E gt Output Voltage s 5 a 3 a 2 0 3 a m E o 2 1 2 1 2 1 0 3 0 Time 40 u s div Time 40 u s div TOIREK 23 33 XC6217 series BHTYPICAL PERFORMANCE CHARACTERISTICS Continued 13 Ripple Rejection Rate HighSpeed mode XC6217x182 Vin Vce 2 8Vpc 0 5Vp pac Vao V n A B Type lour 30mA Ta 25 C C 21 0 u F ceramic Ripple Rejection Rate PSRR dB 0 01 0 1 1 10 100 1000 Ripple Frequency f kHz HighSpeed mode XC6217x302 Vn VoE 4 0Voc 0 5Vp pac Vao Vn A B Type lour 30mA Ta 25 C C 1 0 4 F ceramic Ripple Rejection Rate PSRR dB 0 01 0 1 1 10 100 24133 1000 Ripple Frequency f kHz PowerSave mode XC6217x182 Vin Vor 2 8Vpc 0 5 Va mac Vao Vss A B Type lour 0 1mA Ta 25 C CL 1 0 u F ceramic Ripple Rejection Rate PSRR dB 70 60 1 0 1 1 10 100 Ripple Frequency f kHz 1000 PowerSave mode XC6217x302 Vin Vce 4 0Vpct0 5Vp pac Vao Vss A B Type lour 0 1mA Ta 25 C CL 1 0 u F ceramic Ripple Rejection Rate PSRR dB 0 1 1 10 100 Ripple Frequency f kHz 1000
14. 2 1 2 2 1 2 1 3 0 3 0 Time 40 u s div Time 40 u s div 12 CE Turn On Response XC6217x182 High Speed mode XC6217x182 HighSpeed mode x Vin 2 8V Vao Vn A B Type Tr 5 4 s Vin 2 8V VaozVin A B Type Tr 5 u s lour 1mA Ta 25 C CiZCL 1 0 u F ceramic lour 30mA Ta 25 C Cn C 1 0 4 F ceramic 8 5 8 4 7 4 7 CE Input Voltage CE Input Voltage _ 3 6 a 3 6 _ 2 2 2 2 u E u E gt 2 53 gt 2 53 o o 3 g S 1 48 5 1 48 2 3 gt a 5 20 35 s 0 3 a E 5 Output Voltage a Output Voltage 2 1 2 2 1 2 1 3 0 3 0 Time 40 u s div Time 40 u s div 22133 XC6217 Series TYPICAL PERFORMANCE CHARACTERISTICS Continued 12 CE Turn On Response Continued XC6217x182 HighSpeed mode XC6217x302 HighSpeed mode Vin 2 8V Veo Vin A B Type Tr 5 u s Vin 4 0V Vao Vi A B Type Tr 5 u s lour 100mA Ta 25 C Cn C 1 0 u F ceramic Iour 1mA Ta 25 C C C 1 0 4 F ceramic 5 8 CE Input Voltage CE Input Voltage 6 s e z w X 5 gt 2 53 gt 52 P E E a ZS 3 5 48 o 4 B gt E Output Voltage gt 5 0 3g E 3 B 2 u Output Voltage 5 E 2 2 2 1 1 4 0 0 Time 40 u s div Time 40 u s div i HighSpeed mod XC6217x302 HighSpeed mode E ighSpeed mode Vin 4 0V Vao V A B Type Tr 5 u s Vin 4 0V Veo Vin A B Type Tr 5 u
15. 205 850 2 10 2 15 2 20 115 195 2 25 2 30 2 35 2 40 2 45 2 50 2 55 2 60 2 65 2 70 95 170 2 75 1200 2 80 2 85 2 90 2 95 USPN 4 0 80V lt Vourm 1 55V underdevelopment TOIREX 11 33 XC6217 series OPERATIONAL EXPLANATION lt Output Voltage Control gt The voltage divided by resistors R1 amp R2 is compared with the internal reference voltage by the error amplifier The P channel MOSFET which is connected to the Vour pin is then driven by the subsequent output signal The output voltage at the Vour pin is controlled amp stabilized by a system of negative feedback The current limit circuit and short protect circuit operate in relation to the level of output current The GO function monitors the output current and switches a supply current to two values according to the level of output current Further the IC s internal circuitry can be shutdown via the CE pin s signal Green Operation XC6217A and B series can be set as a fixed high speed mode or a green operation GO mode via a signal to the green operation GO pin Under the condition that the GO pin becomes low level the IC operates in the GO mode and the IC operates in the fixed high speed mode when the GO pin is at high level The GO mode enables the IC to switch automatically the supply current to the high speed HS mode or the power save PS mode according to the level of output current While having both high speed operation and low supply current st
16. 5 5 Ta 25 C Ta 25 C gt 0 25 E 025 H memes Ta 40 C o 02 02 o gt gt 3 0 15 3 0 15 pak a 2 2 27301 D o 0 05 0 05 0 0 0 50 100 150 200 0 50 100 150 200 Output Current Lou mA 4 Output Voltage vs Ambient Temperature HighSpeed mode XC6217x182 Vin Voe 2 8V Voo Vi A B Type Iour 30mA is Cin C_ 1 0 u F ceramic Output Voltage Vout V 50 25 0 25 50 75 100 Ambient Temperature Ta C Output Voltage Vour V Output Current Lou mA HighSpeed mode XC6217x302 Vin Vce 4 0V Vao Viu A B Type loyr 30mA Cy7C 71 0 u F ceramic 50 25 0 25 50 75 100 Ambient Temperature Ta C TOIREX 17 33 XC6217 series TYPICAL PERFORMANCE CHARACTERISTICS Continued 5 Supply Current vs Input Voltage PowerSave mode XC6217x182 Vee zVin Vao Vss A B Type Cn C 1 0 u F ceramic Ta 85 C Ta 25 C Ta 40 C Supply Current Iss uA Input Voltage Viy V HighSpeed mode XC6217x182 Voe Vin VaozVin A B Type Cn C 1 0 4 F ceramic PS Switching Delay Time TDPS us 18 33 70 60 KL Zete Ta 85 G Ta 25 C Po eege Ta 40 C 40 _ o 8 30 f gt a i m a B 20 ka ir mmen 10 I p 0 0 1 2 3 4 5 6 Input Voltage Viy V 6 PS Switching Delay Time vs Ambient Tempe
17. 5 3 4790 3 6210 3 4258 3 6388 3 5145 3 5855 3 4613 3 6033 3 60 3 5280 3 6720 3 4740 3 6900 3 5640 3 6360 3 5100 3 6540 3 65 3 5770 3 7230 3 5223 3 7413 3 6135 3 6855 3 5588 3 7048 3 70 3 6260 3 7740 3 5705 3 7925 3 6630 3 7370 3 6075 3 7555 3 75 3 6750 3 8250 3 6188 3 8438 3 7125 3 7875 3 6563 3 8063 3 80 3 7240 3 8760 3 6670 3 8950 3 7620 3 8380 3 7050 3 8570 3 85 3 7730 3 9270 3 7153 3 9463 3 8115 3 8885 3 7538 3 9078 3 90 3 8220 3 9780 3 7635 3 9975 3 8610 3 9390 3 8025 3 9585 3 95 3 8710 4 0290 3 8118 4 0488 3 9105 3 9895 3 8513 4 0093 4 00 3 9200 4 0800 3 8600 4 1000 3 9600 4 0400 3 9000 4 0600 10 33 XC6217 Series SYMBOL E 4 ES SYMBOL E 4 EE NOMINAL PS NOMINAL PS DROPOUT VOLTAGE SWITCHING DROPOUT VOLTAGE SWITCHING OUTPUT Vdif DELAY TIME OUTPUT Vdif DELAY TIME VOLTAGE VOLTAGE mV GO MODE mV GO MODE V V us us vine Vdif Um 7 Vdif tend pa TYP MAX MAX el TYP MAX MAX 0 80 3 00 500 850 0 85 3 05 0 90 3 10 410 720 0 95 3 15 1 00 3 20 1 05 3 25 330 650 1 10 3 30 1 15 850 3 35 1 20 3 40 1 30 230 410 3 45 1 35 3 50 80 140 1200 1 40 3 55 200 360 1 45 3 60 1 50 3 65 160 290 1 55 3 70 1 60 3 75 1 65 3 80 160 250 1 70 3 85 1 75 3 90 1 80 3 95 1 85 4 00 125 210 1 90 1 95 2 00
18. Evaluation Board Unit mm Board Mount Tj max 125 C Ambient Temperature C Power Dissipation Pd mW Thermal Resistance C W 25 650 153 8 85 260 Pd vs Ta 700 Power Dissipation Pd mW CO e e 25 45 65 85 105 125 Ambient Temperature Ta C TOIREX 27133 XC6217 series USPN 4 Power Dissipation Power dissipation data for the USPN 4 is shown in this page The value of power dissipation varies with the mount board conditions Please use this data as one of reference data taken in the described condition 1 Measurement Condition Reference data Condition Mount on a board Ambient Natural convection Soldering Lead Pb free Board Dimensions 40 x 40 mm 1600 mm in one side Copper Cu traces occupy 50 of the front and 50 of the back The copper area is divided into four block one block is 12 5 of total The USPN 4 package has for terminals Each terminal connects one copper block in the front and one in the back Material Glass Epoxy FR 4 Thickness 1 6 mm Through hole 4 x 0 8 Diameter 2 Power Dissipation vs Ambient Temperature Board Mount Tj max 125 C 40 0 Evaluation Board Unit mm Ambient Temperature C Power Dissipation Pd mW Thermal Resistance C W 25 600 85 240 166 67 Pd vs Ta Power Dissipation Pd mW gt O O 25 45 65
19. RAMETER SYMBOL RATINGS UNITS Input Voltage Vin Vss 0 3 6 5 V Output Current lour 400 1 mA Output Voltage Vour Vss 0 3 Vin 0 3 V CE GO Input Voltage Vcg Vco Vss 0 3 46 5 V USP 4D 120 650 PCB mounted 2 Power Dissipation ser Pd 290 mW SSOT 24 150 USPN 4 100 600 PCB mounted 2 Operational Temperature Range Topr 40 85 C Storage Temperature Range Tstg 55 125 C T lour lt Pd ViN Vour 2 This power dissipation figure shown is PCB mounted and is for reference only Please refer to page 27 28 for details 4 33 XC6217 Series ELECTRICAL CHARACTERISTICS XC6217A B series Ta 25 C PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS CIRCUIT High Speed Mode HS Vourm22 00V x 0 98 x 1 02 Vco Vin Vce Vin lour 10mA High Speed Mode HS Vour r lt 1 95V 0 03 0 03 Vao Vin Vce Vin lour 10mA Power Save Mode PS Output Voltage Vour Vourm22 60V x0 965 Vou x1 025 y 1 Standard 2 Vco 7 Ves Vce Vin lour 0 1mA 3 Power Save Mode PS 1 60V lt Vourm lt 2 55V x 0 955 x 1 035 Vao Vss Vce Vin lour 0 ImA Power Save Mode PS 0 80V lt Vourm lt 1 55V 0 09 0 07 Vao Vss Vce Vin lour 0 1mA High Speed Mode HS Vourn gt 2 00V x 0 99 x 1 01 Vco7 Vin Vce7ViN lour 10mA High Speed Mode HS Vourm lt s1 95V 0 02 0 02 Vco Vin Vce Vin lour 10mA Power Save Mode PS Output Voltage Vour E Vour r High Accuracy 2 Vour 22 60V x0
20. TOIREX XC62 17 Series High Speed Green Operation LDO Voltage Regulators ETR0322_013a x GreenOperation Compatible GENERAL DESCRIPTION The XC6217 series are precise low noise high speed low dropout regulators with green operation GO function They are fabricated using Torex s CMOS process Performance features of the series include high ripple rejection and low dropout voltage and the series include a reference voltage source an error amplifier a current limiter and a phase compensation circuit GO provides high speed operation low power consumption and high efficiencies by automatically switching between a high speed mode HS and a power save mode PS depending upon the load current level The switching point of the GO to the output current is being fixed inside the IC When only high speed operation is required it can be fixed by inputting a high level signal to the GO pin thus providing operating conditions with the most suitable level of supply current for the application The CE function enables the output to be turned off resulting in greatly reduced power consumption In this state with the XC6217B D series the IC turns on the internal switch located between the Vourand Vss pins This short enables the electric charge at the output capacitor Ci to be discharged via the internal auto discharge resistance and as a result the Vour pin quickly returns to the Vss level The series output stabilization capacitor C
21. age x Input Voltage Vin V N c Output Voltage Vour V Time 20 u s div 20 33 XC6217 Series TYPICAL PERFORMANCE CHARACTERISTICS Continued 10 Line Transient Response XC6217x302 HighSpeed mode XC6217x302 HighSpeed mode Voe Vin VaozVin A B Type Tr Tf 5 u s Vee Vn VaozVin A B Type Trz Tf 5 u s lour 1mA Ta 25 C C 1 4 F ceramic lour 30mA Ta 25 C CL 1 tt F ceramic 3 2 6 3 2 Input Volt Input Voltage 5 3 15 5 gt 3 15 3 1 e Output Voltage Input Voltage Vin V Co Input Voltage Vin V wo Output Voltage sooo vent DH era 3 e c Output Voltage Vour V Co o c Output Voltage Vout V 1 295 1 2 95 0 2 9 0 2 9 Time 20 u s div Time 20 u s div HighSpeed mode XC6217x302 Voe Vin Veo Vn A B Type Tr Tfs5 u s lour 100mA Ta 25 C CL 1 u F ceramic 6 3 2 Input Voltage 5 3 15 e s lt 4 3 1 5 gt gt o I 33 305 o o gt gt a 2 Output Voltage 3 a o 1 2 95 0 2 9 Time 20 u s div 11 Turn On Response HighSpeed mode HighSpeed mode XC6217x182xx XC6217x182xx Vce Vin Vao Vin A B Type Tr 5 u s Voe Vin VaozVin A B Type Tr 5 u s lour 1mA Ta 25 C CL 1 0 4 F ceramic lour 30mA Ta 25 C CL 1 0 4 F ceramic 7 4 7 Input Voltage Input Voltag
22. ate the series can acquire high efficiency At the HS PS automatic switching mode GO mode the switching point of the HS mode and the PS mode is being fixed inside the IC When the output current becomes Icon 0 5mA MIN or below the mode changes automatically to the PS mode after the delay time of hundreds usec s and it can reduce supply current in light load Also when the output current becomes Iso 8mA MAX or more the mode changes automatically to the HS mode and the IC becomes high speed operation When the XC6217 is used in the GO mode stable operation range is over 8 0mA is HS mode and below 0 5mA in PS mode Low ESR capacitor With the XC6217 series a stable output voltage is achievable even if used with low ESR capacitors as a phase compensation circuit is built in Values required for the phase compensation are as the chart below In order to ensure the stable phase compensation while avoiding run out of values please use the capacitor which does not depend on bias or temperature too much For a stable power input please connect an input capacitor Cin of 1 0 u F between the Vin pin and the Vss pin Excluding USPN 4 OUTPUT VOLTAGE V OUTPUT CAPACITOR VALUE 0 8 1 15 More than CL 4 7uF 1 27 1 35 More than C 22 24 F 1 4 4 0 More than C 1 0 u F USPN 4 OUTPUT VOLTAGE V OUTPUT CAPACITOR VALUE 1 6 4 0 More than C 2 2 u F 12 33 XC6217 Series C Auto Dis
23. charge Function XC6217B D series can quickly discharge the electric charge at the output capacitor C1 when a low signal to the CE pin which enables a whole IC circuit put into OFF state is inputted via the N channel transistor located between the Vour pin and the Vss pin cf BLOCK DIAGRAM The C auto discharge resistance value is fixed to 780 Q Vin 6 0V Vour 4 0V at typical The discharge time of the output capacitor Ci is set by the C auto discharge resistance R and the output capacitor CL By setting time constant of a CL auto discharge resistance value Rpcuc and an output capacitor value Ci as z z C x Rochc the output voltage after discharge via the N channel transistor is calculated by the following formulas V Vourgxe nd or t zin V Vour E V Output voltage after discharge Vour e Output voltage t Discharge time t C auto discharge resistance Rpcuc X Output capacitor C1 value C Current Limiter Short Circuit Protection The XC6217 series foldback circuit operates as an output current limiter and a short protection of the output pin When the load current reaches the current limit level the fixed current limiter circuit operates and output voltage drops As a result of this drop in output voltage the foldback circuit operates output voltage drops further and output current decreases When the output pin is shorted to the Vss level a current of about 30mA flows CE Pin The IC s internal cir
24. cuitry can be shutdown via the signal from the CE pin with the XC6217 series In shutdown mode output at the Vour pin will be pulled down to the VSS level via R1 amp R2 However as for the XC6217B D series the CL auto discharge resistor is connected in parallel to R1 and R2 while the power supply is applied to the VIN pin Therefore time until the Vour pin reaches the Vss level becomes short The output voltage becomes unstable when the CE pin is open If this IC is used with the correct output voltage for the CE pin the logic is fixed and the IC will operate normally However supply current may increase as a result of through current in the IC s internal circuitry when medium voltage is input ENOTES ON USE 1 Please use this IC within the stated absolute maximum ratings The IC is liable to malfunction should the ratings be exceeded 2 Where wiring impedance is high operations may become unstable due to noise and or phase lag depending on output current Please strengthen Vin and Vss wiring in particular 3 Please wire the input capacitor Cn and the output capacitor Ci as close to the IC as possible TOIREK 13 33 XC6217 series EEST CIRCUITS Circuit 1 Output Voltage Output Current Dropout Voltage Input Operating Voltage Line Regulation Load Regulation Current Limit Short Current C Discharge Resistance No GO pin with the XC6217C D types Circuit 2 Supply Current Standby Current No GO pin with the
25. e 6 6 5S A 5S gt gt P g P g o0 oD o0 o0 3 E E 32 E 35 3 3 Output Voltage 3 jE Output Voltage 2 20 2 0 1 1 0 0 Time 40 u s div Time 40 u s div TOIREX 21 33 XC6217 series BHTYPICAL PERFORMANCE CHARACTERISTICS Continued 11 Turn On Response Continued XC6217x182 HighSpeed mode XC6217x302xx HighSpeed mode x182xx Voe Vin Vao Vn A B Type Tr 5 u s Vce7 Vm Voo Vi A B Type Tr 5 u s lour 100mA Ta 25 C C 210 u F ceramic S Iour 1 mA Ta 25 C CL 1 0 4 F ceramic S H Input Voltage A Input Voltage 3 6 _ c 52 gt c gt E E E i 5 i gt m 55 Si v v oD 3 1 4 3 Ss S Output Voltage gt 5 5 50 A 38 Output Voltage g 5 20 o E 2 1 2 1 0 3 0 Time 40 u s div Time 40 u s div XC6217x302 HighSpeed mode XG82173302 HighSpeed mode x302xx x302xx Voe Vin Veo Vin A B Type Tr 5 u s Voe Vin Vao Vin A B Type Tr 5 u s lour 30mA Ta 25 C CL 1 0 4 F ceramic lour 100mA Ta 25 C C 21 0 u F ceramic 8 9 8 Input Voltage Input Voltage 4 7 4 7 3 6 _ 3 6 _ PS S A s E 5 3 t 2 5 3 gt gt gt gt o o o0 ap zi 43 1 4 8 o o E Output Voltage gt S Output Voltage gt 30 33 o 33 a E 8 o o
26. e Mode PS 1 60V Vour r 2 55V Vce Vin lour 0 1mA x 0 965 Power Save Mode PS 0 80V Vour S 1 55V Vce Vin lour 0 1mA 0 07 Vour r 3 x 1 01 0 02 x1 015 x 1 025 0 05 Output Current louTMAX Vce Vin ViN Vourm 1 0V 0 80V X Vourm 4 00V 250 mA Load Regulation AVouT Vce V N8MAS lour lt 100mA 10 mv Dropout Voltage 4 Vdif Vce Vin lout 100MA E 4 mv Supply Current 1 Issa Vce Vin lour 8MA 25 uA Supply Current 2 Standby Current Iss2 Isrev Vce Vin lour 0mA Vin 6 0V Vce Vss 4 5 0 01 0 10 uA HA N N e Line Regulation AVout AVin Vout VouT T 0 5V lt ViN lt 6 0V dE Vce Vin lour 10mA 1 6V S Vin 6 0V VouT T 1 05V Vce Vin lour 10mA 0 01 0 20 V Input Voltage 0 80V S Vourm 1 55V 1 6 6 0 1 60V S Vous SA DM 1 8 6 0 TOIREX 1133 XC6217 series MELECTRICAL CHARACTERISTICS Continued XC6217C D series Continued Ta 25 C PARAMETER SYMBOL CONDITIONS MIN TYP MAX UNITS CIRCUIT Output Voltage AVout Vee Vin lour 30mA P E Temperature Characteristics Ta Vour 40 C lt Ta lt 85 C HSE TON 82 1 SRPSKE 1 V n Vourm 1 0 Voc 0 5VPp pac 0 85V S Vout 4 00V Ripple Rejection Rate psRR VcE Vislour 30mA f I
27. e PS mode I 0 80V 1 50V Vourn 20mV Vourcy 90mV Vourn70mV 1 60V 1 90V Vourn 20mV Vourn 2 5 Vourn3 9 2 00V 2 50V Vourn 1 Vourent2 5 Vourn 3 9 2 60V 4 00V Vourn 1 Vournt1 5 Vourn 2 5 ex 2 00V High Accuracy gt 2 3 0 Q 1 0 05V increments High Accuracy Vourn HS mode PS mode B 0 85V 1 55V Vour 20mV Vourent50mV Vouren 70mV 1 65V 1 95V Vourn 20mV Vourn t2 5 Vourn 3 5 2 05V 2 55V Vourn 1 Vournt2 5 Vourn 3 5 2 65V 3 95V Vourn 21 Vourn 1 5 Vourn 2 5 ex 2 05V High Accuracy gt 2 0 B GR USP 4D XC6217AJB type GR G USP 4D XC6217AJB type Packages MR SOT 25 XC6217AJB type S amp D Taping Type D MR G SOT 25 XC6217A B type NR SSOT 24 XC6217CID type NR G SSOT 24 XC6217CID type 7R G USPN 4 XC6217C Dtype USPN 4 0 80V S Vourm S 1 55V under development TU The G suffix indicates that the products are Halogen and Antimony free as well as being fully RoHS compliant 2 The device orientation is fixed in its embossed tape pocket For reverse orientation please contact your local Torex sales office or representative Standard orientation R Reverse orientation L TOIREK 3 33 XC6217 series BLOCK DIAGRAMS xC6217A Series XC6217B Series Wer ee Diodes inside the circuit are an ESD protection diode and a parasitic diode E ABSOLUTE MAXIMUM RATINGS Ta 25 C PA
28. een Operation Mode Switch 5 2 2 2 Vas Ground 3 3 1 3 CE ON OFF Control XC6217AJB type USP 4D package XC6217A B type SOT 25 package XC6217C D type SSOT 24 package XC6217C D type USPN 4 package 2 33 XC6217 Series PRODUCT CLASSIFICATION Ordering Information XC62170X2X84X8X6 C DESIGNATOR DESCRIPTION SYMBOL DESCRIPTION A CE High Active no C discharge resistor D Type of Regulator B CE High Active with C discharge resistor C CE High Active no C discharge resistor no GO pin D CE High Active with C discharge resistor no GO pin o Output Voltage 08 40 ex Vourm 3 00V gt 3 9 0 0 1V increments Standard Vout HS mode PS mode gt 0 80V 1 50V Vourn t 30mV Vourn 70mV Vourn 90mV 1 60V 1 90V Vourn 30mV Vourn 3 5 Vouren 49 2 00V 2 50V Vour 2 Vourt 3 955 Vourn 4 5 2 60V 4 00V Vourn 2 Vourn 2 5 Vourn 3 5 ex 2 00V Standard gt 2 0 45 2 0 05V increments Standard Noam HS mode PS mode 0 85V 1 55V Vourn t 30mV Vourn 70mV Vourn 90mV 1 65V 1 95V Vourn 30mV Vourn 3 5 Vourn 49 2 05V 2 55V Vour 2 Vourt 3 955 Vourn 4 5 2 65V 3 95V Vourn 2 Vourn 2 5 Vourn 3 5 Output Accuracy ex 2 05V Standard gt 2 33 0 A 0 1V increments High Accuracy Nam HS mod
29. epresents integer number of output voltage ex MARK VOLTAGE V PRODUCT SERIES 3 3 XX XC6217x3xxGx 5 5 xx XC6217x5xxGx represents output voltage numbers after the decimal point PRODUCT PRODUCT MARK VOLTAGE V SEIRES MARK VOLTAGE V SEIRES 0 x 00 XC6217xx02 1Gx A x 05 XC6217xx0A 1Gx 1 x 10 XC6217xx12 1Gx B x 15 XC6217xx1A 1Gx 2 x 20 XC6217xx22 1Gx C x 25 XC6217xx2A 1Gx 3 x 30 XC6217xx32 1Gx D x 35 XC6217xx3A 1Gx 4 x 40 XC6217xx42 1Gx E x 45 XC6217xx4A 1Gx 5 x 50 XC6217xx52 1Gx F x 55 XC6217xx5A 1Gx 6 x 60 XC6217xx62 1Gx H x 65 XC6217xx6A 1Gx 7 x 70 XC6217xx72 1Gx K x 75 XC6217xx7A 1Gx 8 x 80 XC6217xx82 1Gx L x 85 XC6217xx8A 1Gx 9 x 90 XC6217xx92 1Gx M x 95 XC6217xx9A 1Gx 5X6 represents production lot number 01 to 09 10 to 99 OA OZ 1A in order G I J O Q W excluded Note No character inversion used TOISEX 31 33 XC6217 series MM MARKING RULE Continued USPN 4 USPN 4 TOP VIEW 32 33 represents type of regulators and output voltage range MARK OUTPUT VOLTAGE OUTPUT VOLTAGE PRODUCT SERIES 0 10V INCREMENTS 0 05V INCREMENTS 0 80V 3 00V 3 10V 4 00V 0 85V 3 05V 3 15V 3 95V 1 5 2 6 XC6217CXxxxxx 3 7 4 8 XC6217DXxxxx represents output voltage numbers after the decimal point MARK OUTPUT VOLTAGE V MARK OUTPUT VOLTAGE V 0 3 10 3 15 F 1 60 1 65 1 3 20 3 25 H 1 70 1 75 2 3 30 3 35 K 1 80
30. i is also compatible with low ESR ceramic capacitors Output voltage is selectable in 0 05V increments within a range of 0 80V 4 00V using laser trimming technologies The current limiter s foldback circuit also operates as a short circuit protection for the output current limiter and the output pin E APPLICATIONS FEATURES G Cellular phones Output Current 200mA Limit 250mA TYP gt Cordless phones Dropout Voltage 80MV lour 100MA Vour 3 0V m Operating Voltage Range 1 6V 6 0V 0 8V S Vou S 1 55V G Wireless communication equipment S 3 g Se Portabl 1 8V 6 0V 1 6VSVourS4 0V onanie games Output Voltage Range 0 80V 4 00V 0 05V increments G Cameras VCRs Accuracy 2 HS Mou 22 00V Standard Q Portable AV equipment 30mV HS Vour 1 95V Standard PDAs 2 5 3 5 PS Vour 22 60V Standard 3 5 4 5 PS 1 60 S Vou 2 55V Standard 70mV 90mV PS 0 80 Vour 1 55V Standard 1 HS Vour 22 00V High Accuracy 20mV HS Vour S 1 95V High Accuracy 1 596 2 5 PS Vour 22 60V High Accuracy 2 5 3 5 PS 1 60 Vour 2 55V High Accuracy 50mV 70mV PS 0 80 lt VourS1 55V High Accuracy Low Power Consumption 4 5 A TYP when PS mode 25 u A TYP when HS mode Standby Current Less than 0 1 u A High Ripple Rejection 70dB 1kHz When HS mode Operating Temperature 40 C 85 C Low ESR Capacitor 1 0 u F Ceramic capacitor Regulators wi
31. ischarges by resistors R1 and R2 only as shown in the block diagrams 8 33 XC6217 Series OUTPUT VOLTAGE CHART SYMBOL E 0 E 1 E 2 EE NOMINAL OUTPUT VOLTAGE OUTPUT VOLTAGE OUTPUT VOLTAGE OUTPUT VOLTAGE LA GE HS MODE PS MODE HS MODE PS MODE V Standard V Standard V High Accuracy V High Accuracy V Vour E Vour E Vour E Vour E VouT T MIN MAX MIN MAX MIN MAX MIN MAX 0 80 0 7700 0 8300 0 7100 0 8700 0 7800 0 8200 0 7300 0 8500 0 85 0 8200 0 8800 0 7600 0 9200 0 8300 0 8700 0 7800 0 9000 0 90 0 8700 0 9300 0 8100 0 9700 0 8800 0 9200 0 8300 0 9500 0 95 0 9200 0 9800 0 8600 1 0200 0 9300 0 9700 0 8800 1 0000 1 00 0 9700 1 0300 0 9100 1 0700 0 9800 1 0200 0 9300 1 0500 1 05 1 0200 1 0800 0 9600 1 1200 1 0300 1 0700 0 9800 1 1000 1 10 1 0700 1 1300 1 0100 1 1700 1 0800 1 1200 1 0300 1 1500 1 15 1 1200 1 1800 1 0600 1 2200 1 1300 1 1700 1 0800 1 2000 1 20 1 1700 1 2300 1 1100 1 2700 1 1800 1 2200 1 1300 1 2500 1 25 1 2200 1 2800 1 1600 1 3200 1 2300 1 2700 1 1800 1 3000 1 30 1 2700 1 3300 1 2100 1 3700 1 2800 1 3200 1 2300 1 3500 1 35 1 3200 1 3800 1 2600 1 4200 1 3300 1 3700 1 2800 1 4000 1 40 1 3700 1 4300 1 3100 1 4700 1 3800 1 4200 1 3300 1 4500 1 45 1 4200 1 4800 1 3600 1 5200 1 4300 1 4700 1 3800 1 5000 1 50 1 4700 1 5300 1 4100 1 5700 1 4800 1
32. kHZ gt I 7 dB 3 Vin 1 85Vpc 0 5Vp pac VouT T 0 80V VcE V N lout 30mA f 1kHz Limit Current liM Vce Vin 200 250 mA 1 Vce Vin ShoreC rrent SHORT Your is short circuited at the Vss level es I me l PS Switching Current Icon Vce Vin lout heavy to light load 0 5 mA 4 HS Switching Current Ico Vce Vin lour light to heavy load 8 0 mA 4 Switch Current Hysteresis Range oons leonys lso leor I oe i mA a PS Switching Delay Time 7 tops Vce Vin E 5 us 4 CE High Level Voltage VcEH 1 2 6 0 V 4 CE Low Level Voltage VcEL 0 3 V 4 CE High Level Current IcEH VcE ViN 0 1 0 1 UA 4 CE Low Level Current lee Vce Vss 0 1 0 1 UA 4 CL Auto Discharge I _ v Resistance 8 Rochs Vin 6 0V Vour 4 00V Vce Vss 780 Q 1 NOTE 1 Unless otherwise stated regarding input voltage conditions V n Vourm 1 0V 2 Vour e Effective output voltage Refer to the voltage chart E 0 to E 3 chart I e the output voltage when an amply stabilized Vourm 1 0V is provided at the Vin pin while maintaining a certain lour value 3 Vout m Nominal output voltage 4 Vdif Vin1 6 VouT1 5 5 Vouri A voltage equal to 98 of the output voltage whenever an amply stabilized lout Vourm 1 0V is input in the HS mode 6 Vin The input voltage when Vour appears as input voltage is gradually decreased T Time until HS mode is changed to PS mode by Icon 8 For the XC6217D series only The XC6217C series d
33. rature GO mode XC6217x182 VinzVoe 2 8V Vao Vss A B Type lour 10mA gt 0 1mA CnZCL 1 0 u F ceramic 2500 2000 1500 1000 500 0 50 25 0 25 90 75 100 Ambient Temperature Topr C PS Switching Delay TimeTDPS 4 s Supply Current Iss uA o 70 a a o o o o co o Supply Current Iss uA 20 2500 2000 1500 1000 500 PowerSave mode XC6217x302 Voe Vin Vao Vss A B Type Cn C 1 0 4 F ceramic Ta 85 C Ta 25 C Preis Ta 40 C pp been e 0 1 2 3 4 5 6 Input Voltage Viy V HighSpeed mode XC6217x302 Voe Vin VaozVin A B Type CiZCL 1 0 u F ceramic Ta 85 C Ta 25 C mE Ta 40 C 0 1 2 3 4 9 6 Input Voltage Vin V GO mode XC6217x302 Vin Vce 4 0V Vao Vss A B Type lovr 10mA gt 0 1mA Cy7C 71 0 u F ceramic 50 25 0 25 50 75 100 Ambient Temperature Topr C XC6217 Series MTYPICAL PERFORMANCE CHARACTERISTICS Continued 7 CL Auto Discharge Resistance vs Ambient Temperature XC6217B D Vin 6 0V Voe Vss Vao Vss B Type Vour 4 0V C70 71 0 4 F ceramic 1200 e g 1000 8 ac 9 800 c S o o 600 amp S Ba 9 400r E 8 4 200 o 0 50 25 0 25 50 75 100 Ambient Temperature Topr C
34. rt combustion and associated safety equipment thereof Please use the products listed in this datasheet within the specified ranges Should you wish to use the products under conditions exceeding the specifications please consult us or our representatives We assume no responsibility for damage or loss due to abnormal use All rights reserved No part of this datasheet may be copied or reproduced without the prior permission of TOREX SEMICONDUCTOR LTD TOREX SEMICONDUCTORLTD TOIREX 33 33
35. th Green Operation GO Function C High Speed Discharge XC6217BID Packages USP 4D SOT 25 XC6217A B Type SSOT 24 USPN 4 XC6217C D Type Environmentally Friendly EU RoHS Compliant Pb Free E YPICAL APPLICATION CIRCUIT E TYPICAL PERFORMANCE CHARACTERISTICS XC6217B281MR Vin 3 8V Tr Tf 5usec Ta 25 C Cy 0 710uF Ceramic 29 3 Vin Vout 2 95 Nat HSmode 29 Input Input a2 285 c CE GO Vour GOmode z FERRE V 28 9 SS E Cw C 2 275 9 104F 10uF t 2 ceramic ceramic 3 a 72 265 7 Output Current lgyr 50mA 777 26 loyr 0 ImA T 255 Time 500usec div 1 33 XC6217 series EPIN CONFIGURATION Vour GO Vin Vour 5 4 4 3 Vss 2 3 CE Vour 1L Ly 4 Vin The USP 4D heat dissipation pad is 1 2 The USPN 4 is recommended to solder in recommended to solder in use of the 1 2 3 CE V use of the reference mount pattern and reference mount pattern and metal mask ss metal mask pattern for the mounting pattern for the mounting strength and ViN Vss CE strength heat dissipation USP a0 SOT 25 SSOT 24 USPN 4 BOTTOM VIEN TORRE TOP VIEW BOTTOM VIEW EPIN ASSIGNMENT PIN NUMBER PIN NAME FUNCTION USP 4D SOT 25 SSOT 24 USPN 4 4 1 4 4 Vin Power Input 1 5 3 1 Vour Output 2 4 GO Gr
36. utput voltage range H MARK OUTPUT VOLTAGE OUTPUT VOLTAGE PRODUCT SERIES CJ 0 10V INCREMENTS 0 05V INCREMENTS H TI 0 80V 3 0V 3 10V 4 00V 0 85V 3 05V 3 15V 3 95V 1 2 1 5 2 6 XC6217CXxxxx 3 7 4 8 XC6217DXxxxx SSOT 4 TOR VIEW represents output voltage numbers after the decimal point MARK OUTPUT VOLTAGE V MARK OUTPUT VOLTAGE V 0 3 10 3 15 F 1 60 1 65 1 3 20 3 25 H 1 70 1 75 2 3 30 3 35 K 1 80 1 85 3 3 40 3 45 L 1 90 1 95 4 3 50 3 55 M 2 00 2 05 5 3 60 3 65 N 2 10 2 15 6 3 70 3 75 P 2 20 2 25 7 0 80 3 80 0 85 3 85 R 2 30 2 35 8 0 90 3 90 0 95 3 95 S 2 40 2 45 9 1 00 4 00 1 05 T 2 50 2 55 A 1 10 1 15 U 2 60 2 65 B 1 20 1 25 V 2 70 2 75 C 1 30 1 35 X 2 80 2 85 D 1 40 1 45 Y 2 90 2 95 E 1 50 1 55 Z 3 00 3 05 9X4 represents production lot number 01 to 09 10 to 99 OA OZ 1A in order G I J O Q W excluded Note No character inversion used 30 33 XC6217 Series E MARKING RULE Continued D represents product series USP 4D MARK PRODUCT SERIES 1 XC6217XXXXXX represents type of regulators MARK TYPE OF REGULATORS PRODUCT SERIES A CE High Active without CL Discharge XC6217AxxxxxX D B CE High Active with CL Discharge XC6217Bxxxxx TOP VIEW r
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TOREX XC6217 Series Manual