No. |
Part Name |
Description |
Manufacturer |
31 |
EGS/W/N |
Military/Established Reliability, MIL-R-39007 Qual., Type RWR, R Level, Meets Solvent Resistance of MIL-STD-202 (Method 215), 100% Power Stabilization and Screening Test |
Vishay |
32 |
ESS/W/N |
Military/Established Reliability, MIL-R-39007 Qual., Type RWR, R Level, Meets Solvent Resistance of MIL-STD-202 (Method 215), 100% Power Stabilization and Screening Test |
Vishay |
33 |
HCS12 |
HCS12 Document Methodology |
Motorola |
34 |
LBH1035 |
Soldering methods : IR reflow soldering |
etc |
35 |
LM136AH-2.5-SMD |
2.5V REFERENCE DIODE, GUARANTEED TO 100K RAD(Si) TESTED TO MIL-STD-883, METHOD 1019.5 |
National Semiconductor |
36 |
LM136AH-2.5RQML |
2.5V REFERENCE DIODE, GUARANTEED TO 100K RAD(Si) TESTED TO MIL-STD-883, METHOD 1019.5 |
National Semiconductor |
37 |
LM136AH-2.5RQV |
2.5V REFERENCE DIODE, GUARANTEED TO 100K RAD(Si) TESTED TO MIL-STD-883, METHOD 1019.5 |
National Semiconductor |
38 |
LM136H |
2.5V REFERENCE DIODE/ GUARANTEED TO 100K RADSi TESTED TO MIL-STD-883/ METHOD 1019.5 |
National Semiconductor |
39 |
LMH6628J-QML |
DUAL WIDEBAND, LOW-NOISE, VOLTAGE FEEDBACK OP AMP, GUARANTEED TO 300k rd (si) TESTED TO MIL-STD-883, METHOD 1019 |
National Semiconductor |
40 |
LMH6628J-QMLV |
DUAL WIDEBAND, LOW-NOISE, VOLTAGE FEEDBACK OP AMP, GUARANTEED TO 300k rd (si) TESTED TO MIL-STD-883, METHOD 1019 |
National Semiconductor |
41 |
LMH6628JFQML |
DUAL WIDEBAND, LOW-NOISE, VOLTAGE FEEDBACK OP AMP, GUARANTEED TO 300k rd (si) TESTED TO MIL-STD-883, METHOD 1019 |
National Semiconductor |
42 |
LMH6628JFQMLV |
DUAL WIDEBAND, LOW-NOISE, VOLTAGE FEEDBACK OP AMP, GUARANTEED TO 300k rd (si) TESTED TO MIL-STD-883, METHOD 1019 |
National Semiconductor |
43 |
LMH6628WG-QML |
DUAL WIDEBAND, LOW-NOISE, VOLTAGE FEEDBACK OP AMP, GUARANTEED TO 300k rd (si) TESTED TO MIL-STD-883, METHOD 1019 |
National Semiconductor |
44 |
LMH6628WG-QMLV |
DUAL WIDEBAND, LOW-NOISE, VOLTAGE FEEDBACK OP AMP, GUARANTEED TO 300k rd (si) TESTED TO MIL-STD-883, METHOD 1019 |
National Semiconductor |
45 |
LMH6628WGFQML |
DUAL WIDEBAND, LOW-NOISE, VOLTAGE FEEDBACK OP AMP, GUARANTEED TO 300k rd (si) TESTED TO MIL-STD-883, METHOD 1019 |
National Semiconductor |
46 |
LMH6628WGFQMLV |
DUAL WIDEBAND, LOW-NOISE, VOLTAGE FEEDBACK OP AMP, GUARANTEED TO 300k rd (si) TESTED TO MIL-STD-883, METHOD 1019 |
National Semiconductor |
47 |
LT022MC |
Low noise S/N:60db(according to measurement method Fig> 29-2) |
SHARP |
48 |
LT022MD |
Low noise S/N:60db(according to measurement method Fig> 29-2) |
SHARP |
49 |
LT022MF |
Low noise S/N:60db(according to measurement method Fig> 29-2) |
SHARP |
50 |
MCN |
Molded Sip, Molded Epoxy Case, Solderability per MIL-STD-202 Method 208E, Marking Resistance to Solvents per MIL-STD-202 Method 215 |
Vishay |
51 |
MCN |
Molded Sip, Molded Epoxy Case, Solderability per MIL-STD-202 Method 208E, Marking Resistance to Solvents per MIL-STD-202 Method 215 |
Vishay |
52 |
MCP1612 |
Microchip’s MCP1612 DC-to-DC converter offers the customer a compact and inexpensive method of efficiently converting battery ... |
Microchip |
53 |
MNDS26F32M-X-RH |
QUAD DIFFERENTIAL LINE RECEIVERS ALSO AVAILABLE GUARANTEED TO 100K RAD(Si) TESTED TO MIL-STD-883, METHOD 1019.5, CONDITION A |
National Semiconductor |
54 |
MNDS26F32ME/883 |
QUAD DIFFERENTIAL LINE RECEIVERS ALSO AVAILABLE GUARANTEED TO 100K RAD(Si) TESTED TO MIL-STD-883, METHOD 1019.5, CONDITION A |
National Semiconductor |
55 |
MNDS26F32MER-QML |
QUAD DIFFERENTIAL LINE RECEIVERS ALSO AVAILABLE GUARANTEED TO 100K RAD(Si) TESTED TO MIL-STD-883, METHOD 1019.5, CONDITION A |
National Semiconductor |
56 |
MNDS26F32MJ-QMLV |
QUAD DIFFERENTIAL LINE RECEIVERS ALSO AVAILABLE GUARANTEED TO 100K RAD(Si) TESTED TO MIL-STD-883, METHOD 1019.5, CONDITION A |
National Semiconductor |
57 |
MNDS26F32MJ/883 |
QUAD DIFFERENTIAL LINE RECEIVERS ALSO AVAILABLE GUARANTEED TO 100K RAD(Si) TESTED TO MIL-STD-883, METHOD 1019.5, CONDITION A |
National Semiconductor |
58 |
MNDS26F32MJR-QML |
QUAD DIFFERENTIAL LINE RECEIVERS ALSO AVAILABLE GUARANTEED TO 100K RAD(Si) TESTED TO MIL-STD-883, METHOD 1019.5, CONDITION A |
National Semiconductor |
59 |
MNDS26F32MJRQMLV |
QUAD DIFFERENTIAL LINE RECEIVERS ALSO AVAILABLE GUARANTEED TO 100K RAD(Si) TESTED TO MIL-STD-883, METHOD 1019.5, CONDITION A |
National Semiconductor |
60 |
MNDS26F32MW-QMLV |
QUAD DIFFERENTIAL LINE RECEIVERS ALSO AVAILABLE GUARANTEED TO 100K RAD(Si) TESTED TO MIL-STD-883, METHOD 1019.5, CONDITION A |
National Semiconductor |
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