No. |
Part Name |
Description |
Manufacturer |
991 |
AGN210S1H |
GN-relay. Ultra-small package slim polarized relay. Coil voltage 1.5 V DC. 2 form C. 1 coil latching. Surface-mount terminal S type. Tube packing. |
Matsushita Electric Works(Nais) |
992 |
AGN210S1HX |
GN-relay. Ultra-small package slim polarized relay. Coil voltage 1.5 V DC. 2 form C. 1 coil latching. Surface-mount terminal S type. Tape and reel packing (picked from 1/2/3/4-pin side).. |
Matsushita Electric Works(Nais) |
993 |
AGN210S1HZ |
GN-relay. Ultra-small package slim polarized relay. Coil voltage 1.5 V DC. 2 form C. 1 coil latching. Surface-mount terminal S type. Tape and reel packing. |
Matsushita Electric Works(Nais) |
994 |
AGN210S24 |
GN-relay. Ultra-small package slim polarized relay. Coil voltage 24 V DC. 2 form C. 1 coil latching. Surface-mount terminal S type. Tube packing. |
Matsushita Electric Works(Nais) |
995 |
AGN210S24X |
GN-relay. Ultra-small package slim polarized relay. Coil voltage 24 V DC. 2 form C. 1 coil latching. Surface-mount terminal S type. Tape and reel packing (picked from 1/2/3/4-pin side).. |
Matsushita Electric Works(Nais) |
996 |
AGN210S24Z |
GN-relay. Ultra-small package slim polarized relay. Coil voltage 24 V DC. 2 form C. 1 coil latching. Surface-mount terminal S type. Tape and reel packing. |
Matsushita Electric Works(Nais) |
997 |
AGN210S4H |
GN-relay. Ultra-small package slim polarized relay. Coil voltage 4.5 V DC. 2 form C. 1 coil latching. Surface-mount terminal S type. Tube packing. |
Matsushita Electric Works(Nais) |
998 |
AGN210S4HX |
GN-relay. Ultra-small package slim polarized relay. Coil voltage 4.5 V DC. 2 form C. 1 coil latching. Surface-mount terminal S type. Tape and reel packing (picked from 1/2/3/4-pin side).. |
Matsushita Electric Works(Nais) |
999 |
AGN210S4HZ |
GN-relay. Ultra-small package slim polarized relay. Coil voltage 4.5 V DC. 2 form C. 1 coil latching. Surface-mount terminal S type. Tape and reel packing. |
Matsushita Electric Works(Nais) |
1000 |
ALA2F12 |
2 Form A slim power relay |
Matsushita Electric Works(Nais) |
1001 |
ALA2PF12 |
2 Form A slim power relay |
Matsushita Electric Works(Nais) |
1002 |
ALA2PF24 |
2 Form A slim power relay |
Matsushita Electric Works(Nais) |
1003 |
ALD105 |
LD-relay. 1 form slim power relay. Nominal voltage 5 V DC. |
Matsushita Electric Works(Nais) |
1004 |
ALD106 |
LD-relay. 1 form slim power relay. Nominal voltage 6 V DC. |
Matsushita Electric Works(Nais) |
1005 |
ALD109 |
LD-relay. 1 form slim power relay. Nominal voltage 9 V DC. |
Matsushita Electric Works(Nais) |
1006 |
ALD112 |
LD-relay. 1 form slim power relay. Nominal voltage 12 V DC. |
Matsushita Electric Works(Nais) |
1007 |
ALD118 |
LD-relay. 1 form slim power relay. Nominal voltage 18 V DC. |
Matsushita Electric Works(Nais) |
1008 |
ALD124 |
LD-relay. 1 form slim power relay. Nominal voltage 24 V DC. |
Matsushita Electric Works(Nais) |
1009 |
AN158 |
Serial-Data Interface Chip Supplies Bipolar Voltages |
MAXIM - Dallas Semiconductor |
1010 |
AN1781 |
Graphics Chip Supply Delivers 1.65V at 26A |
MAXIM - Dallas Semiconductor |
1011 |
AN1782 |
Small Footprint / 10us Response Time / 10mV Output Ripple / 1MHz / 6A Step-Down Regulator |
MAXIM - Dallas Semiconductor |
1012 |
AN1872 |
Low-Battery Indicator Has Low Cost and High Efficiency |
MAXIM - Dallas Semiconductor |
1013 |
AN1943 |
Improving the Performance of the MAX4455 by Reducing On-Screen Display Artifacts |
MAXIM - Dallas Semiconductor |
1014 |
AN50 |
Op Amp Gain and Offset Trim using XICOR Digitally Controlled Potentiotiometers (XDCPs) |
Xicor |
1015 |
AN574 |
App Note 101: Using the Secure Microcontroller Watchdog Timer |
MAXIM - Dallas Semiconductor |
1016 |
AN609 |
Tiny IC Debounces Pushbutton Switch |
MAXIM - Dallas Semiconductor |
1017 |
AN611 |
TD-SCDMA Radio Chipset Block Diagram for Handset Application |
MAXIM - Dallas Semiconductor |
1018 |
AN629 |
Digitally Adjustable Voltage References |
MAXIM - Dallas Semiconductor |
1019 |
AN642 |
Analog-to-Digital Converter Captures 1Gsps |
MAXIM - Dallas Semiconductor |
1020 |
AN644 |
QuickChip Design Example 2 Low Power Silicon BJT LNA for 1.9GHz |
MAXIM - Dallas Semiconductor |
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