2020 VOLKSWAGEN ID.3 key

Key t o →  Fig . 4:
1H ig h v o lt a g es c a n c a u se s e rio us in ju rie s o r d eath . N eve r t o uch t h e b atte ry t e rm in als w it h
y o ur f in gers , t o ols , je w elle ry o r a n y m eta l o b je cts .
2T h e h ig h-v o lt a g e b atte ry c o n ta in s d an g ero us l iq uid a n d s o lid s u b sta n ce s. S e rio us c h em ic a l
b urn s a n d b lin dness c a n b e c a u se d if it o utg asse s. S u it a b le e ye p ro te ctio n a n d p ro te ctiv e
clo th in g s h ould a lw ays b e w orn w hen p erfo rm in g w ork o n t h e h ig h-v o lt a g e b atte ry t o
p re ve n t t h e b atte ry f lu id c o m in g in c o n ta ct w it h s k in a n d e ye s. I f s k in o r e ye s c o m e in to
c o n ta ct w it h b atte ry f lu id , r in se t h e a ffe cte d a re as w it h c le an f lo w in g w ate r f o r a t l e ast 1 5
m in ute s a n d s e ek a d octo r im med ia te ly .
3T h e h ig h-v o lt a g e b atte ry c a n b urn . T h e h ig h-v o lt a g e b atte ry m ust n eve r b e e xp ose d t o f ir e ,
sp ark s o r n ake d f la m es. A lw ays h an dle t h e h ig h-v o lt a g e b atte ry w it h c a re t o a vo id d am ag e
an d f lu id l e aks.
4A lw ays k e ep c h il d re n a w ay f ro m t h e h ig h-v o lt a g e b atte ry .
5Y o u w il l f in d f u rt h er in fo rm atio n a n d w arn in gs in t h e o w ner's m an ual a n d in t h e w ork sh op
lit e ra tu re .
6In co rre ct h an dlin g o f t h e h ig h-v o lt a g e b atte ry c a n c a u se s e rio us in ju rie s o r d eath . U nder n o
cir c u m sta n ce s r e m ove t h e l id f ro m t h e h ig h-v o lt a g e b atte ry n or d is a sse m ble t h e h ig h-
vo lt a g e b atte ry .
7In co rre ct h an dlin g o f t h e h ig h-v o lt a g e b atte ry c a n c a u se s e rio us in ju rie s o r d eath . H ave
m ain te n an ce w ork o n t h e h ig h-v o lt a g e b atte ry p erfo rm ed exc lu siv e ly b y p ro p erly q ualif ie d
an d t ra in ed s p ecia lis t s ta ff. N eve r m ake m od if ic a tio n s t o t h e h ig h-v o lt a g e b atte ry . T h e
op en ed h ig h-v o lt a g e b atte ry m ust n ot c o m e in to c o n ta ct w it h w ate r o r o th er l iq uid s.
Li quid s c a n c a u se s h ort- c ir c u it s , e le ctric s h ock s a n d b urn s.

Pub lic f a st c h arg in g s ta tio n : t h e h ig h-v o lt a g e b atte ry c a n b e c h arg ed w it h dir e ct c u rre n t (D C) a t a
c o rre sp on din g c h arg in g s ta tio n . T h is s ig nif ic a n tly s h ort e n s t h e c h arg in g t im e.
T h e p erm an en tly in sta lle d c h arg in g c a b le o f t h e c h arg in g s ta tio n m ust b e s h ort e r t h an
3 0 m etre s.
C onnectin g t h e c h arg e c a b le
C harg in g t a ke s p la ce v ia t h e b otto m c o n nectio n o f t h e c h arg in g s o cke t.
—W it h t h e v e h ic le u n lo cke d , p re ss a t t h e r e ar r ig ht o n t h e c h arg in g s o cke t f la p t o o p en t h e f la p
→  Fig . 1.
—R em ove t h e p ro te ctiv e c a p f ro m t h e b otto m c o n nectio n o f t h e c h arg in g s o cke t →  Fig . 1 3.
D C c ha rg ing
F ig . 1 B eh in d t h e c h arg in g s o cke t f la p a t t h e r e ar r ig ht: c h arg in g s o cke t (s c h em atic d ia g ra m ).
Key t o →  Fig . 1:
1C harg in g p ro ce ss d is p la y w it h il lu m in atio n o f t h e c h arg in g s o cke t (→ Charg in g o p era tio n s).
2C harg in g s o cke t.
3P ro te ctiv e c a p .
Th e a lt e rn atin g c u rre n t is c o nve rt e d in to d ir e ct c u rre n t o uts id e t h e v e h ic le . A s ig nif ic a n tly
h ig her c h arg in g p ow er is a ch ie ve d c o m pare d w it h A C c h arg in g.

If t h e 1 2-v o lt v e h ic le b atte ry w as d is c o n necte d f o r a n e xte n ded p erio d , t h e s y ste m m ay n ot a b le
t o c a lc u la te o r c o rre ctly d is p la y t h e t im e w hen t h e n ext s e rv ic e is d ue (→ In stru m en t c lu ste r).
O bse rv e t h e m axim um p erm is sib le s e rv ic e in te rv a ls (→ Main te n an ce).
V eh ic le s w it h K eyle ss A cce ss: (→ Keyle ss A cce ss): if t h e ig nit io n c a n not b e s w it c h ed o n a ft e r
co n nectin g t h e 1 2-v o lt v e h ic le b atte ry , l o ck a n d u n lo ck t h e v e h ic le f ro m t h e o uts id e. T h en t ry t o
s w it c h o n t h e ig nit io n a g ain . P le ase s e ek e xp ert a ssis ta n ce if t h e ig nit io n c a n not b e s w it c h ed o n .
A ut om atic s w it c h -o ff f o r e le ctric a l c o nsum ers
T h e in te llig en t v e h ic le e le ctric a l s y ste m a u to m atic a lly im ple m en ts a r a n ge o f m easu re s t o
p re ve n t t h e 1 2-v o lt v e h ic le b atte ry f ro m d is c h arg in g u n der h ig h l o ad s:
—T h e p erfo rm an ce o f l a rg e e le ctric a l c o n su m ers m ay b e r e d uce d o r t h ey m ay b e s w it c h ed o ff
c o m ple te ly .
T h e v e h ic le e le ctric a l s y ste m c a n not a lw ays p re ve n t t h e 1 2-v o lt v e h ic le b atte ry f ro m d is c h arg in g.
Fo r e xa m ple w hen t h e ig nit io n is s w it c h ed o n f o r a n e xte n ded p erio d w it h t h e e n gin e o ff, o r
w hen t h e s id e o r p ark in g l ig hts a re o n w hen t h e v e h ic le is p ark e d f o r a n e xte n ded p erio d .
1 2-v o lt v e h ic le b atte ry i s d is c h arg ed
—Th ro ug h u se o f e le ctric a l c o n su m ers w hen t h e v e h ic le ’s d riv e s y ste m h as b ee n d eactiv a te d .
W AR N IN G
In co rre ctly s e cu rin g t h e b atte ry a n d u sin g in co rre ct 1 2-v o lt v e h ic le b atte rie s c a n c a u se s h ort
c ir c u it s , f ir e a n d s e rio us in ju rie s.
●A lw ays u se m ain te n an ce -fre e a n d l e ak-p ro of 1 2-v o lt v e h ic le b atte rie s t h at h ave t h e s a m e
pro p ert ie s, s p ecif ic a tio n s a n d d im en sio n s a s t h e f a cto ry -fit te d 1 2-v o lt v e h ic le b atte ry .
W AR N IN G
A h ig hly e xp lo siv e m ix tu re o f g ase s is g iv e n o ff w hen t h e 1 2-v o lt v e h ic le b atte ry is b ein g
ch arg ed .
●1 2-v o lt v e h ic le b atte rie s s h ould o n ly b e c h arg ed in w ell- v e n til a te d s p ace s.
●N eve r c h arg e a 1 2-v o lt v e h ic le b atte ry w hic h is f ro ze n o r h as b een f ro ze n . D is c h arg ed 1 2-
vo lt v e h ic le b atte rie s c a n a lr e ad y f re eze a t t e m pera tu re s o f a ro un d 0 °C (+ 32°F ).
●A lw ays h ave t h e 1 2-v o lt v e h ic le b atte ry r e p la ce d if it h as e ve r f ro ze n .
●In co rre ctly c o n necte d c a b le s c a n c a u se a s h ort c ir c u it . F ir s t c o n nect t h e p osit iv e c a b le a n d
th en t h e n eg ativ e c a b le .
N OTIC E
●N eve r c o n nect o r d is c o n nect 1 2-v o lt v e h ic le b atte rie s if t h e v e h ic le ’s d riv e s y ste m is
a ctiv a te d o r t h e e n gin e is r u n nin g. N eve r u se a 1 2-v o lt v e h ic le b atte ry t h at d oes n ot
co rre sp on d w it h t h e v e h ic le 's s p ecif ic a tio n s. T h is c a n d am ag e t h e e le ctric a l s y ste m o r
ele ctro n ic c o m pon en ts , w hic h c a n c a u se e le ctric a l f a u lt s .
●N eve r c o n nect e q uip m en t t h at s u p plie s e le ctric p ow er, s u ch a s s o la r p an els o r a b atte ry
c h arg er, t o t h e 1 2-v o lt s o cke t o r t o t h e c ig are tte l ig hte r t o c h arg e t h e 1 2-v o lt v e h ic le
b atte ry . T h is c a n d am ag e t h e v e h ic le e le ctric a l s y ste m .
12-v o lt v e h ic le b atte rie s m ay c o n ta in t o xic s u b sta n ce s s u ch a s s u lp huric a cid a n d l e ad .
D is p ose o f t h e 1 2-v o lt v e h ic le b atte ry in a cco rd an ce w it h t h e r e le va n t r e g ula tio n s.

Th e r e sp ectiv e m an ufa ctu re rs d ecla re h ere w it h t h at t h e f o llo w in g p ro d ucts c o n fo rm , a t t h e t im e o f
ve h ic le p ro d uctio n , w it h t h e b asic r e q uir e m en ts a n d o th er r e le va n t l a w s a n d r e g ula tio n s, in clu d in g
FC C P art  1 5.1 9, F C C P art  1 5.2 1 a n d R SS-Ge n I s su e 1:
R ad io -b ase d e q ui pm en t
—Ele ctro n ic im mob il is e r.
—V eh ic le k e y.
—K eyle ss l o ck in g a n d s ta rt in g s y ste m Keyle ss A cce ss.
—A dap tiv e C ru is e C on tro l ( A CC ).
—Em erg en cy B ra kin g S yste m (F ro n t A ssis t) in cl. C it y E m erg en cy B ra kin g S yste m w it h P ed estria n
M on it o rin g.
—La ne c h an ge s y ste m (S id e A ssis t).
—E m erg en cy A ssis t.
—D riv in g a ssis ta n t (T ra ve l A ssis t).
E le ctric a l e q ui pm en t
—12-v o lt s o cke t.
D ecla ra tio n of c o nf orm it y

Key t o Fig . 1:
A
F ro n t t ra ck1 ,5 36 –  1 ,5 48 m m
Rear t ra ck1 ,5 13 –  1 ,5 25 m m
BW id th1 ,8 09 m m
C
W id th (f ro m e xte rio r
m ir ro r t o e xte rio r
m ir ro r)
2 ,0 70 m m
D
Heig ht t o t h e u p per
ed ge o f t h e r o of a t
ke rb w eig ht
-- m m
Heig ht a t k e rb w eig ht1 ,5 68 m m
E
Heig ht w it h o p en
b oot l id a n d k e rb
w eig ht
2 ,0 47 m m
F
Heig ht w it h o p en
b on net a n d k e rb
w eig ht
1 ,6 88 m m
G
Gr oun d c le ara n ce in
r o ad -re ad y s ta te
1 50 m m
HW heelb ase2 ,7 71 m m
I
Le n gth (f ro m b um per
to b um per)
4 ,2 61 m m
Tu rn in g c ir c le
d ia m ete r
1 0.2  m