1. 1 BFV TRAINING DEVICES

2. 2 Safety: none Risk assessment: low Environmental: trash Evaluation: The student will be evaluated during the gunnery exercise on his proficiency with these devices

3. 3 TERMINAL LEARNING OBJECTIVE ACTION: Identify Training Devices used for BFV Gunnery. CONDITIONS: Given operational Training Devices FM 3-22.1, TC 25-8, Installation manuals BFV and suitable training area. STANDARDS: Place training devices into operation IAW TC 25-8 and installation manuals.

4. 4 ENABLING LEARNING OBJECTIVE ACTION: Identify the components of the Laser Target Interface Device (LTID’s) CONDITIONS: Given a complete set of LTID’s and FM 3-22.1 and TC 25-8. STANDARDS: Identify the components of the LTID’s IAW TC 25-8 and FM 3-22.1.

5. 5 LASER TARGET INTERFACE DEVICE (LTID) PURPOSE: TO ENHANCE GUNNERY TRAINING WHEN USING MILES OR PGS

6. 6

7. 7 POWER REQUIREMENTS 2 x 6Vdc (TOTAL 12Vdc) BATTERIES

8. 8 LASER TARGET INTERFACE DEVICE (LTID) PURPOSE: TO ENHANCE GUNNERY TRAINING WHEN USING MILES OR PGS DESCRIPTION: THE LASER TARGET INTERFACE DEVICE IS COMPATIBLE WITH THE TARGET LIFTING MECHANISMS. THE LTID CONSISTS OF A DETECTION ASSEMBLY, ELECTRONIC ASSEMBLY, AND A SHOCK GENERATOR MECHANISM

9. 9 PRINCIPLES OF OPERATION (LTIDS) RECEIVES LASER CODED MESSAGE AND CONVERTS IT INTO ELECTRICAL PULSES.

10. 10 PRINCIPLES OF OPERATION (LTIDS) RECEIVES LASER CODED MESSAGE AND CONVERTS IT INTO ELECTRICAL PULSES. COMPARES ELECTRICAL PULSES TO THE WEAPONS CODE AND DETERMINES IF A KILL SIGNAL SHOULD BE PRODUCED.

11. 11 PRINCIPLES OF OPERATION (LTIDS) RECEIVES LASER CODED MESSAGE AND CONVERTS IT INTO ELECTRICAL PULSES. COMPARES ELECTRICAL PULSES TO THE WEAPONS CODE AND DETERMINES IF A KILL SIGNAL SHOULD BE PRODUCED. RESPONDS TO THE PROCESSED ELECTRICAL PULSE BY REPLICATING THE SHOCK OF A PROJECTILE STRIKING THE TARGET

12. 12 DETECTION ASSEMBLY MILES DETECTOR BELT

13. 13 DETECTOR ASSEMBLY

14. 14 DETECTION ASSEMBLY MILES DETECTOR BELT RECEIVES AND CONVERTS CODED LASER SIGNALS INTO ELECTRICAL PULSES

15. 15 DETECTION ASSEMBLY MILES DETECTOR BELT RECEIVES AND CONVERTS CODED LASER SIGNALS INTO ELECTRICAL PULSES RELAYS PULSES TO ELECTRONICS ASSEMBLY

16. 16 DETECTION ASSEMBLY MILES DETECTOR BELT RECEIVES AND CONVERTS CODED LASER SIGNALS INTO ELECTRICAL PULSES RELAYS PULSES TO ELECTRONICS ASSEMBLY ATTACHES TO TARGET WITH VELCRO.

17. 17 ELECTRONIC ASSEMBLY CONTROLS

18. 18 ELECTRONICS ASSEMBLY COMPARES ELECTRICAL PULSES TO THE WEAPON CODE

19. 19 ELECTRONICS ASSEMBLY COMPARES ELECTRICAL PULSES TO THE WEAPON CODE DETERMINES IF A KILL SIGNAL SHOULD BE PRODUCED

20. 20 ELECTRONICS ASSEMBLY COMPARES ELECTRICAL PULSES TO THE WEAPON CODE DETERMINES IF A KILL SIGNAL SHOULD BE PRODUCED SENDS SIGNAL TO SHOCK GENERATOR MECHANISM

21. 21 ELECTRONICS ASSEMBLY COMPARES ELECTRICAL PULSES TO THE WEAPON CODE DETERMINES IF A KILL SIGNAL SHOULD BE PRODUCED SENDS SIGNAL TO SHOCK GENERATOR MECHANISM BATTERY OPERATED

22. 22 ELECTRONICS ASSEMBLY COMPARES ELECTRICAL PULSES TO THE WEAPON CODE DETERMINES IF A KILL SIGNAL SHOULD BE PRODUCED SENDS SIGNAL TO SHOCK GENERATOR MECHANISM BATTERY OPERATED HAS SELECTOR TO SET SYSTEM FOR APPROPRIATE TARGET AND RANGE

23. 23 ELECTRONIC ASSEMBLY CONTROLS (CONT)

24. 24 ELECTRONIC ASSEMBLY CONTROLS (CONT)

25. 25 ELECTRONIC ASSEMBLY CONTROLS (CONT) 1. LOW BATTERY INDICATOR 2. RANGE, Select (Rotary Switch) OFF BATTERY TEST 0 KM TO 1 KM 1 KM TO 2 KM 2 KM TO 4 KM 3. TARGET TYPE (Rotary Switch) INFANTRY TARGETS THIN SKIN TARGETS ARMORED TARGETS

26. 26 SHOCK GENERATOR MECHANISM RESPONDS TO THE ELECTRICAL PULSE FROM THE ELECTRONICS ASSEMBLY

27. 27 SHOCK GENERATOR MECHANISM ASSEMBLY

28. 28 SHOCK GENERATOR MECHANISM RESPONDS TO THE ELECTRICAL PULSE FROM THE ELECTRONICS ASSEMBLY ACTIVATES MECHANICAL SOLENOID

29. 29 SHOCK GENERATOR MECHANISM RESPONDS TO THE ELECTRICAL PULSE FROM THE ELECTRONICS ASSEMBLY ACTIVATES MECHANICAL SOLENOID REPLICATES THE SHOCK OF A PROJECTILE STRIKING THE TARGET

30. 30 SHOCK GENERATOR MECHANISM RESPONDS TO THE ELECTRICAL PULSE FROM THE ELECTRONICS ASSEMBLY ACTIVATES MECHANICAL SOLENOID REPLICATES THE SHOCK OF A PROJECTILE STRIKING THE TARGET POSITIONED ON THE TARGET LIFTING MECHANISM SENSOR

31. 31 COMPONENTS OF THE LTIDS (CONSOLIDATED)

32. 32 THRU-SIGHT VIDEO (TSV)

33. 33 ENABLING LEARNING OBJECTIVE ACTION: Identify the components of the Thru Sight Video System. CONDITIONS: In a classroom environment, Given a operational Thru Sight Video System and the Installation Manual. STANDARDS: Identify each component of the Thru Sight Video IAW the installation manual.

34. 34 MASTER GUNNER COURSE

35. 35 MASTER GUNNER COURSE

36. 36 MASTER GUNNER COURSE

37. 37 MASTER GUNNER COURSE

38. 38 MASTER GUNNER COURSE

39. 39 MASTER GUNNER COURSE

40. 40 MASTER GUNNER COURSE

41. 41 MASTER GUNNER COURSE

42. 42 MASTER GUNNER COURSE

43. 43 MASTER GUNNER COURSE

44. 44 TARGETRY

45. 45 Enabling Learning Objective Action: Determine target dimensions and Thermal placement. Conditions: In a classroom environment with an overhead projector with slides and TC 25-8. Standards: Explain the different target dimensions and thermal placement IAW TC 25-8.

46. 46 MASTER GUNNER COURSE

47. 47 MASTER GUNNER COURSE

48. 48 MASTER GUNNER COURSE

49. 49 BFV TRAINING DEVICES