User Guide
Page 3
When first using the mainspring as its sole power source. The watch is powered by SEIKO technology, ensures high accuracy while using the watch, manual winding is an automatic watch equipped with a manual winding mechanism. The glide-motion second hand... to show the winding state of the power reserve, especially if it is fully wound. The watch may differ depending on the model. English FEATURES Spring Drive, the unique mechanism made available only by the mainspring. CAUTION • This watch features a power reserve indicator to " 0." • The watch will work ...
When first using the mainspring as its sole power source. The watch is powered by SEIKO technology, ensures high accuracy while using the watch, manual winding is an automatic watch equipped with a manual winding mechanism. The glide-motion second hand... to show the winding state of the power reserve, especially if it is fully wound. The watch may differ depending on the model. English FEATURES Spring Drive, the unique mechanism made available only by the mainspring. CAUTION • This watch features a power reserve indicator to " 0." • The watch will work ...
User Guide
Page 4
...wind the mainspring 1. But the crown can be turned without damaging the watch mechanism. 80 75 19 70 1 95 90 17 85 2 65 2 3 1 TAC1HYMETER 50 3 SPRING DRIVE 30 20 10 6 12 9 3 6 5 9 100 13 110 120 11 130 140150 180 English ● How to set the time • When setting the time, ... rotations, it provides the power to run the watch for the 24-hour hand. 80 75 19 70 1 95 90 17 85 2 65 2 3 1 TAC1HYMETER 50 3 SPRING DRIVE 30 20 10 6 12 9 3 6 5 9 100 13 110 120 11 130 140150 7 200 180 400 0 300 250 5 Using the 24-hour hand to indicate the...
...wind the mainspring 1. But the crown can be turned without damaging the watch mechanism. 80 75 19 70 1 95 90 17 85 2 65 2 3 1 TAC1HYMETER 50 3 SPRING DRIVE 30 20 10 6 12 9 3 6 5 9 100 13 110 120 11 130 140150 180 English ● How to set the time • When setting the time, ... rotations, it provides the power to run the watch for the 24-hour hand. 80 75 19 70 1 95 90 17 85 2 65 2 3 1 TAC1HYMETER 50 3 SPRING DRIVE 30 20 10 6 12 9 3 6 5 9 100 13 110 120 11 130 140150 7 200 180 400 0 300 250 5 Using the 24-hour hand to indicate the...
User Guide
Page 5
...to adjust the hour hand yet, even if it is now completed. 4. Second click position 70 400 0 2 75 19 300 250 5 80 65 2 3 1 TAC1HYMETER 50 3 SPRING DRIVE 30 20 10 6 12 9 3 6 5 9 100 13 110 120 11 130 140150 7 200 17 85 180 1 95 90 To set the 24-hour hand as a ...regular 24-hour indicator 2 65 2 3 1 TAC1HYMETER 50 3 30 SPRING DRIVE 20 10 6 12 9 3 6 5 9 100 13 110 120 11 130 140150 400 0 180 7 200 300 250 5 1. Push the crown back in simultaneously with the time ...
...to adjust the hour hand yet, even if it is now completed. 4. Second click position 70 400 0 2 75 19 300 250 5 80 65 2 3 1 TAC1HYMETER 50 3 SPRING DRIVE 30 20 10 6 12 9 3 6 5 9 100 13 110 120 11 130 140150 7 200 17 85 180 1 95 90 To set the 24-hour hand as a ...regular 24-hour indicator 2 65 2 3 1 TAC1HYMETER 50 3 30 SPRING DRIVE 20 10 6 12 9 3 6 5 9 100 13 110 120 11 130 140150 400 0 180 7 200 300 250 5 1. Push the crown back in simultaneously with the time ...
User Guide
Page 6
... position 19 80 17 85 1 95 90 10 80 75 1 95 90 17 85 70 400 0 2 19 300 250 5 65 2 3 1 TAC1HYMETER 50 3 SPRING DRIVE 30 20 10 7 12 9 3 6 5 9 100 13 110 120 11 130 140150 7 200 180 To set the 24-hour hand as a dual time indicator ... hour. * Also, adjust the date at the "0" minute position. * The time difference adjustment function serves only for a "different time zone area" 2 65 2 3 1 SPRING DRIVE TAC1HYMETER 50 3 30 20 10 6 12 9 3 6 400 0 7 200 300 250 5 1. However, this stage. in London. Pull out the crown to indicate the ...
... position 19 80 17 85 1 95 90 10 80 75 1 95 90 17 85 70 400 0 2 19 300 250 5 65 2 3 1 TAC1HYMETER 50 3 SPRING DRIVE 30 20 10 7 12 9 3 6 5 9 100 13 110 120 11 130 140150 7 200 180 To set the 24-hour hand as a dual time indicator ... hour. * Also, adjust the date at the "0" minute position. * The time difference adjustment function serves only for a "different time zone area" 2 65 2 3 1 SPRING DRIVE TAC1HYMETER 50 3 30 20 10 6 12 9 3 6 400 0 7 200 300 250 5 1. However, this stage. in London. Pull out the crown to indicate the ...
User Guide
Page 7
... the hour hand makes two full rotations by turning the hour hand two full rotations in one day. 70 2 75 19 80 65 2 3 1 TAC1HYMETER 50 3 SPRING DRIVE 30 20 10 6 12 9 3 6 5 9 100 13 110 120 11 130 140150 400 0 180 7 200 300 250 5 Clockwise: the hour hand turns counterclockwise. When starting to... the small second hand starts to move slightly. Turn the crown to set the date. 70 2 75 English 19 80 17 85 65 2 3 1 TAC1HYMETER 50 3 SPRING DRIVE 30 20 10 6 12 9 3 6 5 9 100 13 110 120 11 130 140150 400 0 180 7 200 300 250 5 5.
... the hour hand makes two full rotations by turning the hour hand two full rotations in one day. 70 2 75 19 80 65 2 3 1 TAC1HYMETER 50 3 SPRING DRIVE 30 20 10 6 12 9 3 6 5 9 100 13 110 120 11 130 140150 400 0 180 7 200 300 250 5 Clockwise: the hour hand turns counterclockwise. When starting to... the small second hand starts to move slightly. Turn the crown to set the date. 70 2 75 English 19 80 17 85 65 2 3 1 TAC1HYMETER 50 3 SPRING DRIVE 30 20 10 6 12 9 3 6 5 9 100 13 110 120 11 130 140150 400 0 180 7 200 300 250 5 5.
User Guide
Page 8
... current hour. 65 2 3 1 TAC1HYMETER 50 3 400 0 Clockwise: Setting the time back (The hour hand turns 70 2 75 19 300 250 5 30 counterclockwise.) 20 10 80 SPRING DRIVE 6 12 7 200 17 85 9 3 180 6 Counterclockwise: Advancing the time (The hour hand turns 1 95 90 5 9 100 13 110 120 11 130 140150 First click position...
... current hour. 65 2 3 1 TAC1HYMETER 50 3 400 0 Clockwise: Setting the time back (The hour hand turns 70 2 75 19 300 250 5 30 counterclockwise.) 20 10 80 SPRING DRIVE 6 12 7 200 17 85 9 3 180 6 Counterclockwise: Advancing the time (The hour hand turns 1 95 90 5 9 100 13 110 120 11 130 140150 First click position...
User Guide
Page 10
STOPWATCH second hand 80 75 19 70 1 95 90 17 85 2 65 2 3 1 TAC1HYMETER 50 3 SPRING DRIVE 30 20 10 6 12 9 3 6 5 9 100 13 110 120 11 130 140150 400 0 180 7 200 300 250 5 A STOPWATCH minute hand STOPWATCH hour hand B * Please note that ...
STOPWATCH second hand 80 75 19 70 1 95 90 17 85 2 65 2 3 1 TAC1HYMETER 50 3 SPRING DRIVE 30 20 10 6 12 9 3 6 5 9 100 13 110 120 11 130 140150 400 0 180 7 200 300 250 5 A STOPWATCH minute hand STOPWATCH hour hand B * Please note that ...
User Guide
Page 16
...(Hz = Hertz ... Stopwatch: Hour hand, Minute hand, Second hand 2 Frequency of the watch . 7 IC (Integrated Circuit Oscillator, frequency divider, and spring drive control circuit. (C-MOS-IC: 1 piece) 8 Jewels 50 jewels * The specifications are subject to ±1 second per day) (If the watch is ...full before starting the watch power shown by the power reserve indicator. 5 Driving system Spring Drive (Automatic type with manual winding function) 6 Continuous operating time Approx. 72 hours (Approx. 3 days) *If the power reserve indicator ...
...(Hz = Hertz ... Stopwatch: Hour hand, Minute hand, Second hand 2 Frequency of the watch . 7 IC (Integrated Circuit Oscillator, frequency divider, and spring drive control circuit. (C-MOS-IC: 1 piece) 8 Jewels 50 jewels * The specifications are subject to ±1 second per day) (If the watch is ...full before starting the watch power shown by the power reserve indicator. 5 Driving system Spring Drive (Automatic type with manual winding function) 6 Continuous operating time Approx. 72 hours (Approx. 3 days) *If the power reserve indicator ...