<TDRVOSSlickEQGE lowBandGainParam="1.7" lowBandFreqParam="30" lowBandShapeParam="Shelf" lowBandLagParam="Off" midBandGainParam="1.0" midBandFreqParam="8000" midBandShapeParam="Narrow Bell" highBandGainParam="1.7" highBandFreqParam="14000" highBandShapeParam="Bell" eqModelParam="German" eqSatParam="Off" lpBypassParam="Off" lpFreqParam="19300" lpModeParam="Smooth" hpBypassParam="Off" hpFreqParam="10" hpModeParam="Normal" tiltFreqParam="650" tiltValueParam="0.00" tiltBypassParam="On" tiltTypeParam="Normal" outSatModelParam="Excited" outSatDriveParam="13.4" outGainParam="3.0" bypassParam="Off" modeParam="Stereo" lowBandBypassParam="Off" midBandBypassParam="Off" highBandBypassParam="Off" autoGainParam="On" qualityParam="Full" displayScaleParam="Scale: Auto" showFreqMagnitudeParam="On" hideBottomBarParam="Off" showFFTAnalyzerParam="Off" CUSTOM_MODEL_German_EXPRESSION=" seq( set_LF_BOOST_GAIN_IN( 	if(eq(type_2,0), 		if(eq(type_0,0),gain_0,1), 		gain_0 	) ), set_LF_CUT_GAIN_IN( 	if(eq(type_2,0), 		if(eq(type_0,1),gain_0,1), 		gain_2 	) ), set_LF_FREQ_IN(freq_0), set_BELL_GAIN_IN(gain_1), set_BELL_FREQ_IN(freq_1), set_BELL_BANDWIDTH_POSITION( 	if(eq(type_2,0), 		if(eq(type_1,0),10,0), 		(log(freq_2)-log(3000))/(log(16000)-log(3000))*10 	) ), set_HF_CUT_GAIN_IN(if(eq(type_2,0),gain_2,1)), set_HF_CUT_FREQ_IN(if(eq(type_2,0),freq_2,10000)), filter(0, seq( 	set_LF_BOOST_POSITION(lin2db(LF_BOOST_GAIN_IN)), 	set_LF_BOOST_DB(if( 		less_equal(LF_BOOST_POSITION,5), 		max(lin2db(0.967+LF_BOOST_POSITION*0.266),0), 		lin2db(-5.383+2.058*LF_BOOST_POSITION-0.104*LF_BOOST_POSITION*LF_BOOST_POSITION) 	)), 	set_LF_CUT_POSITION(lin2db(LF_CUT_GAIN_IN)), 	set_LF_CUT_DB(if( 		less_equal(LF_CUT_POSITION,5), 		max(lin2db(0.635+0.7*LF_CUT_POSITION),0), 		min(lin2db(-11.821+LF_CUT_POSITION*3.105),23.8) 	)), 	set_LF_BOOST_K(db2lin(LF_BOOST_DB)-1), 	set_LF_CUT_K(db2lin(LF_CUT_DB)-1), 	set_LF_freq_BOOST(exp(-4.02+4.316*log(LF_FREQ_IN)-0.621*pow(log(LF_FREQ_IN),2)+0.037*pow(log(LF_FREQ_IN),3))), 	set_LF_freq_CUT(exp(-2.926+4.446*log(LF_FREQ_IN)-0.662*pow(log(LF_FREQ_IN),2)+0.04*pow(log(LF_FREQ_IN),3))), 	if( 		and(greater(LF_BOOST_K,0),greater(LF_CUT_K,0)), 		parallel(1,1,1,LF_CUT_K+1, 			0,LF_BOOST_K,1,1, 			LF_freq_CUT/LF_CUT_K, 			LF_freq_BOOST/LF_BOOST_K), 		greater(LF_BOOST_K,0), 		biquad(0,1,1+LF_BOOST_K,0,1,1,LF_freq_BOOST/LF_BOOST_K), 		greater(LF_CUT_K,0), 		biquad(0,1,1,0,1,1+LF_CUT_K,LF_freq_CUT/LF_CUT_K), 		unity() 	) )), filter(1, seq( 	set_BELL_GAIN_POSITION(lin2db(BELL_GAIN_IN)), 	set_BELL_FREQ(exp(38.645-12.931*log(BELL_FREQ_IN)+1.673*pow(log(BELL_FREQ_IN),2)-0.067*pow(log(BELL_FREQ_IN),3))), 	set_BELL_Q(pwl(log(BELL_FREQ_IN), log(3000), 1.73, log(4000), 1.37, log(5000), 1.74, log(8000), 1.17, log(10000), 0.54, log(12000), 0.60, log(16000), 0.80)), 	set_BELL_RG(if(less_equal(BELL_GAIN_POSITION,5), max(-812.132+1791.849*BELL_GAIN_POSITION,0), min(5954.716+435.37*BELL_GAIN_POSITION,10000))), 	set_BELL_RQ(if(less_equal(BELL_BANDWIDTH_POSITION,5), 738.601+77.701*BELL_BANDWIDTH_POSITION, min(-330.912+320.829*BELL_BANDWIDTH_POSITION,2382))), 	set_BELL_CL(21/(60400 * BELL_Q)), 	set_BELL_A(BELL_RG*BELL_RG/10500*BELL_CL), 	set_BELL_B(BELL_CL*(BELL_RQ+BELL_RG-BELL_RG*BELL_RG/10500)), 	biquad(1, BELL_A+BELL_B, 1, 1, BELL_B, 1, BELL_FREQ) )), filter(2,seq( 	set_HF_CUT_POSITION(lin2db(HF_CUT_GAIN_IN)), 	set_HF_CUT_DB(lin2db( 		if(less(HF_CUT_POSITION,5), 			pow(max(-0.201+0.296*HF_CUT_POSITION,0),2)+1, 			pow(0.902+0.067*HF_CUT_POSITION,2)+1 		) 	)), 	set_HF_CUT_freq(exp(-9.373+2.845*log(HF_CUT_FREQ_IN)-0.098*pow(log(HF_CUT_FREQ_IN),2))), 	set_HF_CUT_G(db2lin(HF_CUT_DB)-1), 	set_HF_CUT_K(max(0.268+2.109*sqrt(HF_CUT_G)-1.385*HF_CUT_G,0)), 	biquad(0,HF_CUT_K,1,0,HF_CUT_K+HF_CUT_G,1,HF_CUT_freq) )) ) " CUSTOM_MODEL_German_HIGH_FREQ_DEFAULT="10000" CUSTOM_MODEL_German_HIGH_FREQ_MAX="20000" CUSTOM_MODEL_German_HIGH_FREQ_MIN="3000" CUSTOM_MODEL_German_HIGH_FREQ_SNAPMAP="3000,4000,5000,10000,20000" CUSTOM_MODEL_German_HIGH_GAIN_MAX="10" CUSTOM_MODEL_German_HIGH_GAIN_MIN="0" CUSTOM_MODEL_German_HIGH_GAIN_SNAPMAP=":::0.25" CUSTOM_MODEL_German_LOW_FREQ_DEFAULT="30" CUSTOM_MODEL_German_LOW_FREQ_MAX="800" CUSTOM_MODEL_German_LOW_FREQ_MIN="20" CUSTOM_MODEL_German_LOW_FREQ_SNAPMAP="20,30,60,100,200,400,800" CUSTOM_MODEL_German_LOW_GAIN_MAX="10" CUSTOM_MODEL_German_LOW_GAIN_MIN="0" CUSTOM_MODEL_German_LOW_GAIN_SNAPMAP=":::0.25" CUSTOM_MODEL_German_MID_FREQ_DEFAULT="8000" CUSTOM_MODEL_German_MID_FREQ_MAX="16000" CUSTOM_MODEL_German_MID_FREQ_MIN="3000" CUSTOM_MODEL_German_MID_FREQ_SNAPMAP="3000,4000,5000,8000,10000,12000,16000" CUSTOM_MODEL_German_MID_GAIN_MAX="10" CUSTOM_MODEL_German_MID_GAIN_MIN="0" CUSTOM_MODEL_German_MID_GAIN_SNAPMAP=":::0.25" CUSTOM_MODEL_German_NAME="EQP-WA"/>