#GEN

# http://www.seielect.com/Catalog/SEI-RMC.pdf

RMCF* -> T=R {
    RMCF(????)(?)(?)([0-9R][0-9RKM][0-9RKM][0-9RKM]) ->
	FP=$REF:1 _TOL=$REF:2 _R=$REF:4

    include ../../lib/rtol.inc

    # all TC are worst case
    FP=0201 -> P=1/20W V=25V TC=600ppm/K
    FP=0402 -> P=1/16W V=50V TC=500ppm/K
    FP=0603 -> P=1/10W V=50V TC=600ppm/K
    FP=0805 -> P=1/8W V=150V TC=500ppm/K
    FP=1206 -> P=1/4W V=200V TC=500ppm/K
    FP=1210 -> P=1/3W V=200V TC=400ppm/K
    FP=2010 -> P=3/4W V=200V TC=500ppm/K
    FP=2512 -> P=1W V=200V TC=500ppm/K
}

# http://www.seielect.com/catalog/SEI-RNCP.pdf
#
# Updated to new numbers with a bit of guesswork.
#

RNCP* -> T=R {
    RNCP(????)(?)(??)([0-9R][0-9RKM][0-9RKM][0-9RKM]) ->
	FP=$REF:1 _TOL=$REF:2 _R=$REF:4

    include ../../lib/rtol.inc

    FP=0402 -> P=1/10W V=50V TC=100ppm/K
    FP=0603 -> P=1/8W V=150V TC=100ppm/K
    FP=0805 -> P=1/4W V=200V TC=100ppm/K
    FP=1206 -> P=1/2W V=200V TC=100ppm/K
}


# Adjust multipliers

_R=(*)R(*)	->	_R=0$_R:1.$_R:2
_R=(*)K(*)	->	_R=$_R:1.${_R:2}k
_R=(*)M(*)	->	_R=$_R:1.${_R:2}M

# Remove leading and trailing zeroes

_R=0([0-9]*)		-> _R=$_R:1
_R=(*.[0-9]*)0([kM])	-> _R=$_R:1$_R:2
_R=(*).0([kM])		-> _R=$_R:1$_R:2
_R=(*.[0-9]*)0		-> _R=$_R:1
_R=(*).0		-> _R=$_R:1
_R=(*).([kM]|)		-> _R=$_R:1$_R:2

T=R -> R=${_R}R !