qfp128p
Abstract: No abstract text available
Text: IVI N 1 020012A / 0012AFA / 0012-3V 1 Type | R O M (x8-bit/x16-bit) R A M (x8-bit/x16-bit) External ROM, RAM MN1020012A / 0012AFA : 100ns (at 4.5 to 5.5V, 20MHz) MN1020012-3V : 200ns (at 3.0 to 3.6V, 10MHz) M N 1 020012A / 0 0 1 2 A F A / 0012-3V Maximum 16M In total (Special Register 1K , ' mas ±3 LSB ps V (Ta=25°C, VDD=5.0V, VSS=OV) A/D Characteristics ( M N 1 0 2 0 0 12 - 3V ) ?,v:vS?si A/D Conversion Relative Error A/D Conversion Time Analog Input Voltage VIA AVDD=3 3V , AVSS=0V 80
|
OCR Scan
|
PDF
|
20012A
0012AFA
012-3V
x8-bit/x16-bit)
MN1020012A
0012AFA
100ns
20MHz)
MN1020012-3V
qfp128p
|
MN1020012
Abstract: MN1020004 stack pointer MN102L230
Text: No file text available
|
Original
|
PDF
|
T97-621-001B
MN1020004,
MN1020012,
MN102L230,
MN102xx17
16-bit
in41FFFE'
0x41FBFE,
0x41FFFD"
MN1020012
MN1020004
stack pointer
MN102L230
|
ic 74ls47
Abstract: 74LS47 pin configuration MN1020012A ttl 74ls47 7 segment pin diagram of 74Ls47 matsushita stepping motors pin diagram of 74LS47 TTL IC 74LS47 functions A2300F 74LS47 gate diagram
Text: No file text available
|
OCR Scan
|
PDF
|
MN10200
MN1020012
16-bit
ic 74ls47
74LS47 pin configuration
MN1020012A
ttl 74ls47 7 segment
pin diagram of 74Ls47
matsushita stepping motors
pin diagram of 74LS47 TTL IC
74LS47 functions
A2300F
74LS47 gate diagram
|
MN1873287
Abstract: an6512n 2sk3190 MN171202 mn158413 mn15142 mn187164 mn6740 AN7210 MN15283
Text: MN1020003 - MN15813 MN1020004A - MN15814 MN15816 MN1020012-3V - MN15828 MN1020012A - MN15829
|
Original
|
PDF
|
MN101C01C
MN15224
MN101C01D
MN15226
MN101C027
MN15261
MN101C03A
MN101C38A
MN15263
MN101C06D
MN1873287
an6512n
2sk3190
MN171202
mn158413
mn15142
mn187164
mn6740
AN7210
MN15283
|
2000 - MN1020012A
Abstract: MN1020012 cbx5 MN1020012AFA PS1M KI70 MN10200 sram 2dm BC10 MN102L
Text: No file text available
|
Original
|
PDF
|
102L00
MN1020012
00FE80'
00FEFF'
MN10200
MN10200
MN1020012A
MN1020012
cbx5
MN1020012AFA
PS1M
KI70
sram 2dm
BC10
MN102L
|
ME6211-3.3V
Abstract: ET5201C-3.3V SA-45513-4A md-50m CX9162B-3.3v SX1303-3.3V 51-PD 45513 SiS5512 MD50M
Text: =V C C 35 47=M D 34 3V 3V 3V 3V 3V VSS 3V 3V 3V 3V 3V 3V 3V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V VSS 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V VSS 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 48=M D 33 49 , =A D 31 94=A D 30 3V /5V 3 V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V VSS 3 V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V /5V 3V
|
OCR Scan
|
PDF
|
S5512
SiS5512
64-bit
64/32-bit
32-bit
ME6211-3.3V
ET5201C-3.3V
SA-45513-4A
md-50m
CX9162B-3.3v
SX1303-3.3V
51-PD
45513
MD50M
|
UZ1084L-3.3V
Abstract: UZ1084-3.3V ET5201C-3.3V LM117-3.3V 2N1887 2n3886 2n388b 2n3035 2R2505 CX9162B-3.3v
Text: 250mA,-4 0 3V , 3V , 3V , 3V , 3V , 3V , 3V , 3V , 3V , 3V , 3V , 3V , 3V , 3V , 3V , 103mA,-4 0 130mA,-4 0 130mA , 2N4378 3V , 130mA, -4 0 TO -94 O u tlin e 110 A m p e re s PRV and VBO 25 50 100 150 200 250 300 , " stud. fle x ib le le a d s 235 AMPS @ T c Noted MAX. REQ'D. GATE SIGNAL ® T j {°C) 3V , 130mA, -4 0 3V , 130mA, -4 0 3V , 130mA,-4 0 3V , 130mA,-4 0 3V , 130mA, - 4 0 3V . 130 m A,-4 0 3V , 130mA,-6 2 3V . 130 m A,-6 2 3V , 150mA, -6 5 3V . 150mA,-6 5 3V , 3V , 3V , 3V , 3V , 3V , 3V , 3V , 3V , 3V . 3V , 3V , 3V , 3V , 3V
|
OCR Scan
|
PDF
|
2N1792'
2N1793
2N17S5
ZN1780
150mA,
150mA
2N3886
UZ1084L-3.3V
UZ1084-3.3V
ET5201C-3.3V
LM117-3.3V
2N1887
2n388b
2n3035
2R2505
CX9162B-3.3v
|
1999 - CB-C10
Abstract: CBC-10 ME6211-3.3V
Text: > 60MHz CB-C7VX CB-C7HD/FT 5V (5VCMOSI/F) 5V 5V (5VTTLI/F) 5V/ 3V 2 3V 2 2 2 3 3V 2 /2V 2 < 15MHz 1 1 CB-C8VMCB-C9VM () < 100MHz > 100MHz CB-C8VXCB-C9VX 1 , 5V/ 3V 2 3V 2 2 3 3V 2 /2V 2 1. 2. CB-C73VVDD=3.0V±0.3V, CB-C8VX/VMCB-C9VX/VM , IC < 30MHz 1 1 1 () < 60MHz > 60MHz 5V 5V/ 3V 2 3V 2 2 3 3V 2 /2V , CB-C7VX 5V 5V/ 3V 2 3V 2 2 3 3V 2 /2V 2 1. 2. CB-C73VVDD=3.0V±0.3V, CB-C8VX
|
Original
|
PDF
|
X13769XJ2V0CD00
30MHz
60MHz
15MHz
100MHz
CB-C10
CB-C73VVDD
CB-C10VDD
CB-C10
CBC-10
ME6211-3.3V
|
2013 - U74LVX4052
Abstract: SE8119AKN-LF-3.3V ET5201C-3.3V
Text: /demultiplexer using silicon gate CMOS technology. In 3V and 5V systems these can achieve high-speed operation , ) is small,the device can perform large-amplitude (VCC-VEE) signal switching. For example, if VCC= 3V , GND=0V and VEE=- 3V , signals between - 3V and + 3V can be switched from the logical circuit using a signal 3V power supply. All input pins are equipped with a newly developed input protection circuit , ® FEATURES * Low ON resistance: RON=22â¦(Typ.)(VCC-VEE= 3V ) * RON=15â¦(Typ.)(VCC-VEE=6V) * High Speed
|
Original
|
PDF
|
U74LVX4052
U74LVX4052
QW-R502-950
SE8119AKN-LF-3.3V
ET5201C-3.3V
|
2005 - Atmel part numbering
Abstract: FBGA48 TFBGA48 te28f320b3bd 49XX TSOP32 Package TE28F320B3TD MBM29F080A tsop48 te28f320c3bd
Text: supply 3V x8 uniform x8 boot block x8/x16 boot block x8/x16 boot block multiple bank Dual supply 3V , 640 = 64Mb Voltage range F = Vcc at 5V W = Vcc at 3V DW = Vcc at 3V dual bank Speed 45 to , supply 3V Size 1Mb 2Mb 4Mb 8Mb 16Mb 32Mb 64Mb Sales type M29W010B M29W200B M29W040B , Boot Boot Boot Boot Dual supply 3V Size 16Mb 32Mb 64Mb Sales type M28W160C M28W320C , Am29LV001B 3V 3V Am29F002B 5V Am29F002NB 5V Am29F200B 5V Am29LV200B 3V
|
Original
|
PDF
|
CRNORFLASH1005
Atmel part numbering
FBGA48
TFBGA48
te28f320b3bd
49XX
TSOP32 Package
TE28F320B3TD
MBM29F080A
tsop48
te28f320c3bd
|
2006 - TSOP-20
Abstract: package TSOP20 tsop20 M27C4001 8X14 PDIP32 MX27C512 ST M27C256B TSOP32 M27C512
Text: TSOP32 TSOP32 (8x20mm) TSOP32 (8x20mm) PDIP40 PLCC44 SO40 PDIP40 SO40 3V 5V 3V 5V 3V 5V 3V 5V 3V 5V 3V 5V 5V 5V 3V 5V 5V 3V 5V 5V 3V 5V 5V 3V 5V 5V 3V 5V 5V 5V 3V 5V 3V 3V 5V 3V 5V 5V 5V 5V 5V 3V 5V 5V 3V 5V 5V 3V 5V 5V 3V 5V 5V 5V 5V 50 , SO32 TSOP32 TSOP32 TSOP32 5V 5V 3V 3V 5V 3V 3V 5V 3V 3V 5V 5V 5V 5V 3V 3V 3V 5V 3V 3V 5V 3V 3V 5V 3V 5V 5V 5V 5V 5V 3V 3V 5V 5V 3V 3V 5V 5V 3V 3V 5V 3V 3V
|
Original
|
PDF
|
CREPROM0206
TSOP-20
package TSOP20
tsop20
M27C4001
8X14
PDIP32
MX27C512
ST M27C256B
TSOP32
M27C512
|
2015 - SE8119AKN-3.3V
Abstract: U74LVX4052G-P16-R
Text: /demultiplexer using silicon gate CMOS technology. In 3V and 5V systems these can achieve high-speed operation , ) is small,the device can perform large-amplitude (VCC-VEE) signal switching. For example, if VCC= 3V , GND=0V and VEE=- 3V , signals between - 3V and + 3V can be switched from the logical circuit using a signal 3V power supply. All input pins are equipped with a newly developed input protection circuit , ® FEATURES * Low ON resistance: RON=22â¦(Typ.)(VCC-VEE= 3V ) * RON=15â¦(Typ.)(VCC-VEE=6V) * High Speed
|
Original
|
PDF
|
U74LVX4052
U74LVX4052
QW-R502-950
SE8119AKN-3.3V
U74LVX4052G-P16-R
|
2013 - Not Available
Abstract: No abstract text available
Text: drive analog multiplexer/demultiplexer using silicon gate CMOS technology. In 3V and 5V systems these , ) signal switching. For example, if VCC= 3V , GND=0V and VEE=- 3V , signals between - 3V and + 3V can be switched from the logical circuit using a signal 3V power supply. All input pins are equipped with a , supplies, and in battery bachup circuits. ï® FEAT U RES * Low ON resistance: RON=22 (Typ.)(VCC-VEE= 3V ) * RON=15 (Typ.)(VCC-VEE=6V) * High Speed: tpd=3ns (Typ.)(VCC= 3V ) * Low power Dissipation: ICC=4 A (Max
|
Original
|
PDF
|
U74LVX4052
U74LVX4052
QW-R502-950
|
2013 - Not Available
Abstract: No abstract text available
Text: , low-voltage drive analog multiplexer/demultiplexer using silicon gate CMOS technology. In 3V and 5V systems , ) signal switching. For example, if VCC= 3V , GND=0V and VEE=- 3V , signals between - 3V and + 3V can be switched from the logical circuit using a signal 3V power supply. All input pins are equipped with a , supplies, and in battery bachup circuits. ï® FEAT U RES * Low ON resistance: RON=22 (Typ.)(VCC-VEE= 3V ) * RON=15 (Typ.)(VCC-VEE=6V) * High Speed: tpd=3ns (Typ.)(VCC= 3V ) * Low power Dissipation: ICC=4 A (Max
|
Original
|
PDF
|
U74LVX4053
U74LVX4053
QW-R502-951
|
|
|
2013 - Not Available
Abstract: No abstract text available
Text: /demultiplexer using silicon gate CMOS technology. In 3V and 5V systems these can achieve high-speed operation , VCC= 3V , GND=0V and VEE=- 3V , signals between - 3V and + 3V can be switched from the logical circuit using a signal 3V power supply. All input pins are equipped with a newly developed input protection , circuits. ï® FEATURES * Low ON resistance: RON=22â¦(Typ.)(VCC-VEE= 3V ) * RON=15â¦(Typ.)(VCC-VEE=6V) * High Speed: tpd=3ns (Typ.)(VCC= 3V ) * Low power Dissipation: ICC=4μA (Max.)(TA=25°C) ï
|
Original
|
PDF
|
U74LVX4051
U74LVX4051
QW-R502-949
|
1999 - Not Available
Abstract: No abstract text available
Text: -power supply system. 5V full-swing output required 5V, single 5V/ 3V , Voltage double Note2 that can be Note2 supplied 3V ,single 3V 2V double Note2 / Note3 , I/O signal (only CMOS I/F operates on 5V , frequency varies depending on your circuit configuration. 2. CB-C7, 3V : VDD=3.0V + 0.3V, CB-C8VX/VM,CB-C9VX , Cell-Based ICs for you? Click one of the following items to display the next window. 5V, single 5V/ 3V , Voltage double Note2 that can be Note2 supplied 3V ,single 3V Note2 / 2V Note3 , double Searching Notes
|
Original
|
PDF
|
X13769XJ2V0CD00
CB-C10
|
2005 - EN25T80
Abstract: EN25T16 cfeon en25t80 cFeon EN25F80 cFeon EN29LV160BB EN25T80-Q en25t80 75qcp EN25D80-Q EN25D80 EN25T40
Text: AF9710 TopMax(2) 512K 512K 3V 3V EN29LV512-J EN29LV512-T O O X X O O X X , 1M 1M 1M 1M 1M 1M 1M 1M 5V 5V 5V 3V 3V 3V 3V 3V 3V EN29F010-J EN29F010-P , X X O O X O O X X X X 2M 2M 2M 3V 3V 3V EN29F002ANT-J EN29F002ANT-T , 4M 4M 4M 3V 3V 3V 3V 3V 3V 3V 1.8V 1.8V EN29LV040A-J EN29LV040A-P EN29LV040A-S , X X X X O O O X X X 8M 8M 8M 8M 8M 8M 8M 8M 8M 8M 8M 3V 3V 3V 3V 3V
|
Original
|
PDF
|
EN71PL03280-C
EN71PL032A0-C
EN71GL032A0-C
EN71PL064A0-C
EN71PL064B0-C
EN71GL064B0-C
EN71GL128B0-C
EN25T80
EN25T16
cfeon en25t80
cFeon EN25F80
cFeon EN29LV160BB
EN25T80-Q
en25t80 75qcp
EN25D80-Q
EN25D80
EN25T40
|
LVDS
Abstract: 5962R9865105 transistor smd P 16 UT54LVDM055LV 5962H9583402VXX UT54LVDS032LVE-UPC UT54LVDS031LVE-UCX UT54LVDM055LVUPC 5962R0153601QYX UT54LVDS031LVE UPC
Text: LVDS CS RCV 5962F9583403VXX LVDS 3V DRIVER http://www.dscc.dla.mil/Programs/MilSpec , /DocSearch.asp LVDS 3V DRV UT54LVDS031LV-UPC LVDS 3V DRV UT54LVDS031LVE-UPC LVDS 3V DRV UT54LVDS031LV-UCX LVDS 3V DRV UT54LVDS031LVE-UCX LVDS 3V DRV 5962R9865103QYX LVDS 3V DRV 5962R9865105QYX LVDS 3V DRV 5962F9865102QYX LVDS 3V DRV 5962F9865104QYX LVDS 3V DRV 5962G9865102QYX LVDS 3V DRV 5962G9865104QYX LVDS 3V DRV 5962H9865102QYX LVDS 3V DRV
|
Original
|
PDF
|
5962F0153701QXX
5962G0153701QXX
5962H0153701QXX
5962R0153701VXX
5962F0153701VXX
5962G0153701VXX
5962H0153701VXX
UT54LVDM055LV-UPC
UT54LVDM055LV-UCX
5962R0620201QXX
LVDS
5962R9865105
transistor smd P 16
UT54LVDM055LV
5962H9583402VXX
UT54LVDS032LVE-UPC
UT54LVDS031LVE-UCX
UT54LVDM055LVUPC
5962R0153601QYX
UT54LVDS031LVE UPC
|
2014 - U74LVX4053
Abstract: No abstract text available
Text: /demultiplexer using silicon gate CMOS technology. In 3V and 5V systems these can achieve high-speed operation , ) is small, the device can perform large-amplitude (VCC-VEE) signal switching. For example, if VCC= 3V , GND=0V and VEE=- 3V , signals between - 3V and + 3V can be switched from the logical circuit using a signal 3V power supply. All input pins are equipped with a newly developed input protection circuit , circuits. ï® FEATURES * Low ON resistance: RON=22â¦(Typ.)(VCC-VEE= 3V ) * RON=15â¦(Typ.)(VCC-VEE
|
Original
|
PDF
|
U74LVX4053
U74LVX4053
QW-R502-951
|
Not Available
Abstract: No abstract text available
Text: Voltage +5V + 3V or +5V +5V +5V + 3V or +5V +2.5V or + 3V + 3V or +5V +2.5V or + 3V + 3V or +5V +2.5V or + 3V +5V , 12 12 12 12 12 12 12 12 14 14 14 14 14 +5V + 3V + 3V +5V +5V +5V +5V + 3V + 3V +5V + 3V +5V +5V +5V +5V + 3V +5V +5V +5V +5V +5V +5V +5V +5V +5V +5V 34 27 28 80 86 63 63 67 67 -5V -150 140 67 650 72.5 87 , No No No No No No No No P12/ 3V No No No No No No No No No No + 3V or 5V J + 3V or +5V J/K +2.5V or + 3V + 3V or +5V + 3V or +5V + 3V or +5V + 3V or +5V +2.5V or + 3V +2.5V or + 3V ECL +5V +2.5V or + 3V + 3V or
|
Original
|
PDF
|
20MSPS:
AD775
AD9280
AD9048
AD9057
AD9283
|
stm32f107
Abstract: MCBQVGA LD1117S33 pc10 k2 5 CS42L52 LIS302DL PC13-TAMPER-RTC BOOT03
Text: + Reset Reset VDDA GND GND GND GND +3, 3V C10 10p PC13 10K R67 0R R43 220k R44 S2 Tamper S3 C23 Wakeup S4 Reset 100n 10K PD13 PD14 C19 PA4 PA3 PA7 PC12 PA5 PC10 PA6 PC11 PE0 +3, 3V PB BOOT1 3 +3, 3V GND 2 1 R21 10K PB2 BOOT0 3 +3, 3V GND 2 1 R31 10K BOOT0 , PE8 PE9 PE10 PE11 PE12 PE13 PE14 PE15 PD RESET +3, 3V +3, 3V +3, 3V R37 10K R38 10K R39 +3, 3V +3, 3V +3, 3V +3, 3V +3, 3V Q3 32,786kHz +3, 3V C13 10p PA0 1k R65 10K +3, 3V +3, 3V
|
Original
|
PDF
|
STM32F107
PC13-TAMPER-RTC
PC14-OSC32
PC15-OSC32
1800p
001uF
1800p
MCBSTM32C-Vers20
50MHz
stm32f107
MCBQVGA
LD1117S33
pc10 k2 5
CS42L52
LIS302DL
BOOT03
|
2002 - ST m27c512
Abstract: TSOP44 Package SO32 m27c1001 plcc32 ST M27C256B Atmel 642 M27C4002 m27c4001 CROSS REFERENCE PLCC32 package EPROM m27c2001
Text: PDIP40 SO40 SO40 SO40 Power Supply 5V 5V 5V 5V 5V 5V 5V 3V 5V 5V 3V 5V 5V 3V 5V 5V 3V 5V 5V 5V 5V 5V 5V 5V 3V 5V 5V 5V 3V 5V 3V 3V 5V 3V 5V 5V 5V 5V 3V 5V 5V 3V 5V 5V 3V 5V 5V 3V 5V 5V 5V 5V 5V MACRONIX Part Number MX27C1100 MX27C1024 , (8x20mm) TSOP32 (8x20mm) TSOP32 (8x20mm) TSOP32 (8x20mm) Power Supply 5V 5V 3V 3V 5V 3V 3V 5V 3V 3V 5V 5V 5V 5V 3V 3V 3V 5V 3V 3V 5V 3V 3V 5V 3V 5V 5V 3V 3V 5V 3V 3V
|
Original
|
PDF
|
CREPROM/0202
ST m27c512
TSOP44 Package
SO32
m27c1001 plcc32
ST M27C256B
Atmel 642
M27C4002
m27c4001 CROSS REFERENCE
PLCC32 package
EPROM m27c2001
|
2SK984
Abstract: uhf shf fet
Text: , (MES Vdso(V) 5 I dss(iiiA) 30.00 90. 00 120.00 Vds= 3V , Vgs=0 a Vgso(V) -6 gm(mS) 20.00 40. 00 100.00 Vds= 3V , 1d=10mA Id(iA) 120 NF(dB) 2. 00 Vds= 3V , Id=10mA, f=8GHz Pt(«w) 300 Ga(dB) 8. 50 Vds= 3V ,Id=10mA, f=8GHz Tch(°C) 125 MAG(dB) 10. 00 Vds= 3V .Io=20mA, f=8MHz fo(GHz)* 60. 00 Vds= 3V . Id=30mA ⢠2 S K 5 7 1 BS JS& : VHF/UHF «ffiil^iitSfflo : VHF~C 'C F-efiil®, iSffif. (MES W) Vds(V) 5 Idss(mA) 30. 00 60.00 150. 00 Vds= 3V , Vgs=0 â¦e^sssjt,® a JU G D J Vgso(V) -6 gm
|
OCR Scan
|
PDF
|
2SK28I
10jiA
12GHz
2SK984
uhf shf fet
|
stm32f103z
Abstract: stm32f103ze LD1117S33 PC13-TAMPER-RTC MCBSTM32E 74lvc244 pc10 bp M25P64-VMF6P STM32F103-ZE t2d6
Text: 100n S1 +3, 3V R40 10k IC2 STM32F103ZE 26 PC0 27 PC1 28 PC2 29 PC3 44 PC4 45 PC5 96 , 123 77 78 79 80 81 82 85 86 MISC VREF+ Reset Reset VDDA GND GND GND GND +3, 3V 32,786kHz VREF+ RESET RESET VDDA PA +3, 3V +3, 3V +3, 3V +3, 3V +3, 3V PA0 PA1 PA2 PA3 PA4 PA5 PA6 PA7 PA8 , Tamper R44 220k R65 1k R3 10k S3 PC13 +3, 3V PA0 A6 A7 A8 A9 Q2 100n C10 10p S4 Reset PB BOOT1 PD PD2 PD3 PD4 PD5 PD6 PD7 D2 D3 PG RESET A10 A11 A12 A13 A14 A15 +3, 3V
|
Original
|
PDF
|
STM32F103ZE
786kHz
BC850
BAT60A
LD1117S33
MCBSTM32E-Vers3
stm32f103z
stm32f103ze
LD1117S33
PC13-TAMPER-RTC
MCBSTM32E
74lvc244
pc10 bp
M25P64-VMF6P
STM32F103-ZE
t2d6
|
2013 - U74LVX4053
Abstract: No abstract text available
Text: /demultiplexer using silicon gate CMOS technology. In 3V and 5V systems these can achieve high-speed operation , ) is small, the device can perform large-amplitude (VCC-VEE) signal switching. For example, if VCC= 3V , GND=0V and VEE=- 3V , signals between - 3V and + 3V can be switched from the logical circuit using a signal 3V power supply. All input pins are equipped with a newly developed input protection circuit , circuits. ï® FEATURES * Low ON resistance: RON=22â¦(Typ.)(VCC-VEE= 3V ) * RON=15â¦(Typ.)(VCC-VEE
|
Original
|
PDF
|
U74LVX4053
U74LVX4053
QW-R502-951
|
