This group consists of five levels of training ranging from Complexity 1 to Complexity 5, with level 5 the most complex. Within each complexity, nine additional subcomplexity levels exist.
Example: TPS and ITA Training Using the BRAT - Complexity 1.0 to 1.9
Part Number | Description |
---|---|
T‑401 | Theoretical RF Training Course - 6 weeks of classroom training on theoretical aspects of radio frequency, microwave, and other high level theories |
T‑402 | TCASE and TBASIC Software Training - 3 weeks of fundamental software training for TPS development |
T‑402A | Intermediate TCASE and TBASIC Software Training (5 student minimum) |
T‑403 | On-the-Job BRAT Training Course - 3 weeks of training on the BRAT Test System |
T‑404 | Practical TPS Development - 4 months of hands-on training on actual TPS development utilizing Units Under Test (UUTs) |
T‑405 | Operation and Maintenance Training - 1 week of training on the basic operation and maintenance of the BRAT Test System |
T‑407 | BRAT 407 Operation and Maintenance Training |
T‑RF407BJ | BRAT RF407BJ (JTIDS BRAT) Operation Training |
V‑303C | BRAT 303C Operation and Maintenance Training |
V‑305B | BRAT 305B Operation and Maintenance Training |
V‑RF305BJ | BRAT RF305BJ Operation Training |
V‑307 | BRAT 307 Operation and Maintenance Training |
V‑RF307BJ | BRAT RF307BJ (JTIDS BRAT) Operation Training |
V‑511B | BRAT 511 Operation and Maintenance Training |
V‑520B | BRAT 520 Operation and Maintenance Training |
AT‑105 | Advanced Training - BRAT 105 Maintenance (up to 5 students) |
AT‑305B | Advanced Training - BRAT 305B Maintenance (up to 5 students) |
AT‑405 | Advanced Operation and Maintenance Training (up to 5 students) |
Complete System Support
Support of all equipment and software for the BRAT Test System, including on-site visits as needed.
Part Number | Description |
---|---|
94100264‑10 | Self Test VXI Kit (Includes cables and case) |
94100264‑30 | Self Test RF Kit (Includes cables and case) |
94100264‑70 | Self Test RF Kit without Microwave Network Analyzer Calibration Kit (Includes cables and case) |
94101102‑10 | Self Test JSTARS Kit (Includes cables and case) |
94100258‑10 | Self Test VXI Case (Case only) |
94100258‑30 | Self Test RF Case (Case only) |
The Logistic Data Package (LDP) is a customized technical data package used to support an end item and consists of available data for performing end item training or maintenance. The LDP may include engineering support data, flow charts, ITA assembly drawings, parts lists, illustrations, technical data sheets, test procedures, test data, wiring lists, and schematics. This group consists of five levels ranging from Complexity 1 to Complexity 5, with level 5 the most complex.
Part Number | Description |
---|---|
LDP-1 | Logistic Data Package - Complexity 1 |
LDP-2 | Logistic Data Package - Complexity 2 |
LDP-3 | Logistic Data Package - Complexity 3 |
LDP-4 | Logistic Data Package - Complexity 4 |
LDP-5 | Logistic Data Package - Complexity 5 |
Part Number | Description |
---|---|
PNC-CAL-DOC-ASSY | Phase Noise Calibrator Repair Documentation to Assembly/Module Level |
PNC-CAL-DOC-COMPONENT | Phase Noise Calibrator Repair Documentation to Piece-Part Level |
This group consists of six minor and six major levels, each ranging from Complexity 0 to Complexity 5, with level 5 the most complex. Within each complexity, nine additional subcomplexity levels exist.
Example: Report (Minor) - Complexity 3.0 to 3.9
This group consists of eleven levels ranging from Complexity 0 to Complexity 10, with level 10 the most complex. Within each complexity, nine additional subcomplexity levels exist.
Example: Technical Orders - Complexity 1.0 to 1.9
This group consists of eleven levels ranging from Complexity 0 to Complexity 10, with level 10 the most complex. Within each complexity, nine additional subcomplexity levels exist.
Example: Technical Manual Change Pages or Supplements - Complexity 5.0 to 5.9
This group consists of six levels ranging from Complexity 0 to Complexity 5, with level 5 the most complex. Within each complexity, nine additional subcomplexity levels exist.
Example: Technical Studies - Complexity 3.0 to 3.9
This group consists of ten levels ranging from Complexity 0 to Complexity 9, with level 9 the most complex. Within each complexity, nine additional subcomplexity levels exist.
Example: Microelectronics Simulation Analysis for TPS Development - SRU - Complexity 5.0 to 5.9
This group consists of six levels ranging from Complexity 0 to Complexity 5, with level 5 the most complex. Within each complexity, nine additional subcomplexity levels exist.
Example: Microelectronics Simulation Analysis for TPS Development - Go/NoGo - SRU - Complexity 3.0 to 3.9
This group consists of six levels ranging from Complexity 1 to Complexity 6, with level 6 the most complex. Within each complexity, nine additional subcomplexity levels exist.
Example: Microelectronics Simulation Analysis for TPS Development - Go/NoGo - LRU - Complexity 3.0 to 3.9