No. |
Part Name |
Description |
Manufacturer |
31 |
EPC1213LI20 |
Configuration devices for SRAM-based LUT devices, 212,942 � 1-bit device with 5.0-V operation |
Altera Corporation |
32 |
EPC1213PC8 |
Configuration devices for SRAM-based LUT devices, 212,942 � 1-bit device with 5.0-V operation |
Altera Corporation |
33 |
EPC1213PI8 |
Configuration devices for SRAM-based LUT devices, 212,942 � 1-bit device with 5.0-V operation |
Altera Corporation |
34 |
EPM7512AEBC256-10 |
Programmable logic , 512 macrocells, 32 logic array blocks, 212 I/O pins, 10ns |
Altera Corporation |
35 |
EPM7512AEBC256-7 |
Programmable logic , 512 macrocells, 32 logic array blocks, 212 I/O pins, 7ns |
Altera Corporation |
36 |
EPM7512AEBI256-10 |
Programmable logic , 512 macrocells, 32 logic array blocks, 212 I/O pins, 10ns |
Altera Corporation |
37 |
EPM7512AEBI256-7 |
Programmable logic , 512 macrocells, 32 logic array blocks, 212 I/O pins, 7ns |
Altera Corporation |
38 |
EPM7512AEFC256-10 |
Programmable logic , 512 macrocells, 32 logic array blocks, 212 I/O pins, 10ns |
Altera Corporation |
39 |
EPM7512AEFC256-12 |
Programmable logic , 512 macrocells, 32 logic array blocks, 212 I/O pins, 12ns |
Altera Corporation |
40 |
EPM7512AEFC256-7 |
Programmable logic , 512 macrocells, 32 logic array blocks, 212 I/O pins, 7ns |
Altera Corporation |
41 |
EPM7512AEFI256-10 |
Programmable logic , 512 macrocells, 32 logic array blocks, 212 I/O pins, 10ns |
Altera Corporation |
42 |
MAX744ACPA |
5V, step-down, current-mode PWM DC-DC converter accept inputs between 65V and 16V and deliver 750mA. 159kHz to 212.5kHz guaranteed oscillator frequency limits. |
MAXIM - Dallas Semiconductor |
43 |
NBVSPA013 |
2.5V 212.0 MHz LVDS PureEdge™ Voltage Controlled Crystal Oscillator Module |
ON Semiconductor |
44 |
NBXDBA012 |
3.3V, 106.25MHz / 212.5MHz PureEdge™ FibreChannel Clock Oscillator Module |
ON Semiconductor |
45 |
NBXDPA012 |
Crystal Oscillator Module, 2.5 V / 3.3 V, 106.25 MHz / 212.50 MHz PureEdge™ LVPECL |
ON Semiconductor |
46 |
NTE5245AK |
50 watt zener diode, +-5% tolerance. Nominal zener voltage Vz = 6.0V. Zener test current Izt = 2125mA. |
NTE Electronics |
47 |
TM4C1290NCZAD |
High performance 32-bit ARM? Cortex?-M4F based MCU 212-NFBGA -40 to 105 |
Texas Instruments |
48 |
TM4C1290NCZADI3 |
High performance 32-bit ARM? Cortex?-M4F based MCU 212-NFBGA -40 to 85 |
Texas Instruments |
49 |
TM4C1290NCZADI3R |
High performance 32-bit ARM? Cortex?-M4F based MCU 212-NFBGA -40 to 85 |
Texas Instruments |
50 |
TM4C1290NCZADT3 |
High performance 32-bit ARM? Cortex?-M4F based MCU 212-NFBGA -40 to 105 |
Texas Instruments |
51 |
TM4C1292NCZAD |
IoT enabled High performance 32-bit ARM? Cortex?-M4F based MCU 212-NFBGA -40 to 85 |
Texas Instruments |
52 |
TM4C1292NCZADI3R |
IoT enabled High performance 32-bit ARM? Cortex?-M4F based MCU 212-NFBGA -40 to 85 |
Texas Instruments |
53 |
TM4C1292NCZADT3 |
IoT enabled High performance 32-bit ARM? Cortex?-M4F based MCU 212-NFBGA -40 to 105 |
Texas Instruments |
54 |
TM4C1294NCZAD |
IoT enabled High performance 32-bit ARM? Cortex?-M4F based MCU 212-NFBGA -40 to 85 |
Texas Instruments |
55 |
TM4C1294NCZADI3R |
IoT enabled High performance 32-bit ARM? Cortex?-M4F based MCU 212-NFBGA -40 to 85 |
Texas Instruments |
56 |
TM4C1294NCZADT3 |
IoT enabled High performance 32-bit ARM? Cortex?-M4F based MCU 212-NFBGA -40 to 105 |
Texas Instruments |
57 |
TM4C1297NCZAD |
High performance 32-bit ARM? Cortex?-M4F based MCU 212-NFBGA -40 to 85 |
Texas Instruments |
58 |
TM4C1297NCZADI3 |
High performance 32-bit ARM? Cortex?-M4F based MCU 212-NFBGA -40 to 85 |
Texas Instruments |
59 |
TM4C1297NCZADI3R |
High performance 32-bit ARM? Cortex?-M4F based MCU 212-NFBGA -40 to 85 |
Texas Instruments |
60 |
TM4C1297NCZADT3 |
High performance 32-bit ARM? Cortex?-M4F based MCU 212-NFBGA -40 to 105 |
Texas Instruments |
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