Using the Request for Quote (RFQ) form provided on this page, you can request competitive procurement options on part number SN7406 J with rapid responses always offered by our staff. To ensure that you locate and procure exactly what you need with ease, we list parts with as much information as we can. For example, part number SN7406 J It is listed as Microcircuit Digital. component manufactured by Raytheon Systems Ltd Weapons Sup, specifically under CAGE Code K0461. It is also accompanied by the NSN 5962004321015 for ease of organization, the first digits of the NSN indicating that the part belongs to FSC 5962 Microcircuits Electronic.
NSN Information for Part Number SN7406 J with NSN 5962-00-432-1015, 5962004321015
NSN | FSC | NIIN | CLS | Hazmat | DEMIL | Cancelled NSN |
---|---|---|---|---|---|---|
5962-00-432-1015 Item Description: Microcircuit Digital | 5962 | 004321015 | N | A | ||
CIIC | HCC | ESD | PMIC | Criticality | ENAC | |
A | ||||||
Part Number | ISC | RNVC | RNCC | HCC | MSDS | SADC |
Sn7406 J | 3 | 1 | C | 9 |
Characteristics Data of NSN 5962-00-432-1015, 5962004321015
MRC | Criteria | Characteristic |
---|---|---|
ADAQ | BODY LENGTH | 0.660 INCHES MINIMUM AND 0.785 INCHES MAXIMUM |
ADAU | BODY HEIGHT | 0.140 INCHES MINIMUM AND 0.180 INCHES MAXIMUM |
ADAT | BODY WIDTH | 0.220 INCHES MINIMUM AND 0.280 INCHES MAXIMUM |
AFGA | OPERATING TEMP RANGE | +0.0/+70.0 DEG CELSIUS |
AFJQ | STORAGE TEMP RANGE | -65.0/+150.0 DEG CELSIUS |
CBBL | FEATURES PROVIDED | HERMETICALLY SEALED AND MONOLITHIC AND POSITIVE OUTPUTS AND W/OPEN COLLECTOR AND HIGH VOLTAGE |
CQSZ | INCLOSURE CONFIGURATION | DUAL-IN-LINE |
CQZP | INPUT CIRCUIT PATTERN | HEX 1 INPUT |
CTFT | CASE OUTLINE SOURCE AND DESIGNATOR | T0-116 JOINT ELECTRON DEVICE ENGINEERING COUNCIL |
AEHX | MAXIMUM POWER DISSIPATION RATING | 324.0 MILLIWATTS |
CQSJ | INCLOSURE MATERIAL | CERAMIC AND GLASS |
CQWX | OUTPUT LOGIC FORM | TRANSISTOR-TRANSISTOR LOGIC |
CSSL | DESIGN FUNCTION AND QUANTITY | 6 BUFFER, INVERTING AND 6 DRIVER, INVERTING |
CZEQ | TIME RATING PER CHACTERISTIC | 15.00 NANOSECONDS MAXIMUM PROPAGATION DELAY TIME, LOW TO HIGH LEVEL OUTPUT AND 23.00 NANOSECONDS MAXIMUM PROPAGATION DELAY TIME, HIGH TO LOW LEVEL OUTPUT |