#GEN

# http://www.johansontechnology.com/images/stories/rfcaps/mlhqcaps/jti_high-q-mlcc_2008-11.pdf
# http://www.johansondielectrics.com/surface-mount-products/surface-mount-mlc-capacitors/part-number-breakdown.html

* -> T=C {
    (???)([RS][0-9][0-9])(?)([0-9][0-9][0-9])(?)* ->
	_V=$REF:1 _FP=$REF:2 _M=$REF:3 _E12=$REF:4 _TOL=$REF:5

    _V=6R3 -> V=6.3V
    _V=100 -> V=10V
    _V=160 -> V=16V
    _V=250 -> V=25V
    _V=500 -> V=50V
    _V=101 -> V=100V
    _V=201 -> V=200V
    _V=251 -> V=250V
    _V=501 -> V=500V
    _V=631 -> V=630V
    _V=102 -> V=1000V
    _V=152 -> V=1500V
    _V=202 -> V=2000V
    _V=252 -> V=2500V
    _V=302 -> V=3000V
    _V=402 -> V=4000V
    _V=502 -> V=5000V

    _FP=R03 -> FP=01005
    _FP=R05 -> FP=0201
    _FP=R07 -> FP=0402
    _FP=R14 -> FP=0603
    _FP=R15 -> FP=0805
    _FP=S42 -> FP=1111
    _FP=R18 -> FP=1206
    _FP=S41 -> FP=1210
    _FP=R29 -> FP=1808
    _FP=S43 -> FP=1812
    _FP=S47 -> FP=2220
    _FP=S49 -> FP=1825
    _FP=S48 -> FP=2225	# MMLC says 2225, High-Q says 2525
    _FP=S58 -> FP=3838

    _M=S -> M=NP0/RF
    _M=L -> M=NP0/RF
    _M=E -> M=NP0/RF
    _M=W -> M=X7R/RF
    _M=N -> M=NP0
    _M=W -> M=X7R
    _M=X -> M=X5R
    _M=Z -> M=Z5U
    _M=Y -> M=Y5V

    _TOL=A -> TOL=0.05pF
    _TOL=B -> TOL=0.10pF
    _TOL=C -> TOL=0.25pF
    _TOL=D -> TOL=0.5pF
    _TOL=F -> TOL=1%
    _TOL=G -> TOL=2%
    _TOL=J -> TOL=5%
    _TOL=K -> TOL=10%
    _TOL=M -> TOL=20%
    _TOL=Z -> TOL=80/20%
}

# E12 scale, base multiplier is 10^-12 (pico)

_E12_P=(??)8	-> _E12=${_E12_P:1}0f
_E12_P=(?)(?)9	-> _E12=$_E12_P:1.${_E12_P:2}p
_E12_P=(??)0	-> _E12=${_E12_P:1}p
_E12_P=(??)1	-> _E12=${_E12_P:1}0p
_E12_P=(?)(?)2	-> _E12=$_E12_P:1.${_E12_P:2}n
_E12_P=(??)3	-> _E12=${_E12_P:1}n
_E12_P=(??)4	-> _E12=${_E12_P:1}0n
_E12_P=(?)(?)5	-> _E12=$_E12_P:1.${_E12_P:2}u
_E12_P=(??)6	-> _E12=${_E12_P:1}u
_E12_P=(??)7	-> _E12=${_E12_P:1}0u

# remove trailing zeroes

_E12=(*).0([fpnu]) -> _E12=$_E12:1$_E12:2
_E12=(*).0	   -> _E12=$_E12:1

T=C -> C=${_E12}F !