From 2bff39db07f23a1983ff099a94f1705917a1fd07 Mon Sep 17 00:00:00 2001
From: "Michael J. Chudobiak" <mjc@avtechpulse.com>
Date: Thu, 14 Aug 2014 14:20:04 -0400
Subject: remove AVRQ-3-B support

---
 device-functions.c | 462 -----------------------------------------------------
 device-functions.h |   2 -
 error_utils.c      |  53 ++----
 flash.c            |  15 --
 globals.h          |  37 ++---
 menus.c            | 107 +------------
 parser.c           |  97 +----------
 7 files changed, 26 insertions(+), 747 deletions(-)

diff --git a/device-functions.c b/device-functions.c
index e1ec380..3b1bf22 100644
--- a/device-functions.c
+++ b/device-functions.c
@@ -111,9 +111,6 @@ void Main_Rst (void)
 		globals.ChannelState[i].burst_time = globals.Constraints.composite_min_burst_time[i];
 		globals.ChannelState[i].rise_time = globals.Flash.min_rise_time[i];
 		globals.ChannelState[i].soft_current_limit = globals.Flash.max_soft_current_limit[i];
-		globals.ChannelState[i].vcc1 = 0.0;
-		globals.ChannelState[i].vcc2 = globals.Flash.vcc2_min[i];
-		globals.ChannelState[i].vlogic = 0.0;
 		globals.ChannelState[i].slew = globals.Flash.min_slew[i];
 
 		globals.Flags.do_check_settings=NO;   /* don't check for conflicting settings */
@@ -154,9 +151,6 @@ void Main_Rst (void)
 
 		Set_current_limit(0,i,globals.ChannelState[i].soft_current_limit);
 
-		Set_avrq_ampl(0,0,0,2,globals.ChannelState[i].vcc1);
-		Set_avrq_ampl(0,0,0,3,globals.ChannelState[i].vcc2);
-		Set_avrq_ampl(0,0,0,4,globals.ChannelState[i].vlogic);
 		globals.Flags.do_check_settings=YES;  /* check for conflicting settings */
 	}
 
@@ -199,18 +193,6 @@ int Set_Amplitude(int check_possible_only,int pol_override,int override_on,int w
 		new_ampl = fabs(new_ampl);
 	}
 
-	if (globals.Flash.enable_avrq_extra_ampls && channel) {
-		return Set_avrq_ampl(check_possible_only,word_override,range_override,channel,new_ampl);
-	}
-	if (globals.Flash.enable_avrq_extra_ampls && !channel) {
-		if ((new_ampl>=0.0) && (new_ampl<globals.Flash.ampl_zero_equiv[channel])) {
-			new_ampl=globals.Flash.ampl_zero_equiv[channel];
-		}
-		if ((new_ampl<0.0) && (new_ampl>-globals.Flash.ampl_zero_equiv[channel])) {
-			new_ampl=-globals.Flash.ampl_zero_equiv[channel];
-		}
-	}
-
 	if (!globals.Flash.voltage_enabled[channel] && !globals.Flash.current_enabled[channel]) {
 		return Unrecognized;
 	}
@@ -1289,10 +1271,6 @@ int Set_Load(int channel, float value)
 		return InvalidChannel;
 	}
 
-	if (globals.Flash.enable_avrq_extra_ampls) {
-		return Set_avrq_res(0,0,0,channel,value);
-	}
-
 	/* duty cycle check */
 	int i;
 	for (i=0; i<max_channels; ++i) {
@@ -1544,12 +1522,6 @@ int Set_Update_Chans(void)
 				globals.ChannelState[i].slew=globals.ChannelState[0].slew;
 			}
 
-		for (i=1; i<num_of_chan; ++i) {
-			globals.ChannelState[i].vcc1=globals.ChannelState[0].vcc1;
-			globals.ChannelState[i].vcc2=globals.ChannelState[0].vcc2;
-			globals.ChannelState[i].vlogic=globals.ChannelState[0].vlogic;
-		}
-
 	}
 
 	return OK;
@@ -1990,22 +1962,6 @@ int Set_Cal_Nom(int channel,int calibration_point_number,int parameter, float *n
 		nominal_val=globals.Flash.slew_pwl_time[channel][range][polarity][entry];
 		nominal_wordout=globals.Flash.slew_pwl_Vc_norm4095[channel][range][polarity][entry];
 		break;
-	case pwl_vcc1_values:
-		nominal_val=globals.Flash.vcc1_pwl_amp[0][0][0][entry];
-		nominal_wordout=globals.Flash.vcc1_pwl_Vc_norm4095[0][0][0][entry];
-		true_channel=0;
-		break;
-	case pwl_vcc2_values:
-		nominal_val=globals.Flash.vcc2_pwl_amp[0][0][0][entry];
-		nominal_wordout=globals.Flash.vcc2_pwl_Vc_norm4095[0][0][0][entry];
-		true_channel=0;
-		break;
-	case pwl_load_type_values:
-		nominal_val=globals.Flash.load_type_pwl_time[channel][range][polarity][entry];
-		nominal_wordout=globals.Flash.load_type_pwl_Vc_norm4095[channel][range][polarity][entry];
-		reset_state=0;
-		disable_errors=1;
-		break;
 	}
 
 	/* just get nominal value, don't activate */
@@ -2128,18 +2084,6 @@ int Set_Cal_Nom(int channel,int calibration_point_number,int parameter, float *n
 		}
 		break;
 
-	case pwl_load_type_values:
-		Set_avrq_res(0,nominal_wordout,range,channel,nominal_val);
-		break;
-
-	case pwl_vcc1_values:
-		status=Set_Amplitude(0,polarity,1,nominal_wordout,range,0,channel,nominal_val,0);
-		break;
-
-	case pwl_vcc2_values:
-		status=Set_Amplitude(0,polarity,1,nominal_wordout,range,0,channel,nominal_val,0);
-		break;
-
 	}
 
 	/* enables or disables delay diagnostic mode */
@@ -2215,23 +2159,6 @@ int Set_VI_Cal_Pnt(int parameter,int channel,int calibration_point_number,float
 		max_ranges=timing_ranges;
 		pwl_amp=&globals.Flash.slew_pwl_time[0][0][0][0];
 		break;
-	case pwl_vcc1_values:
-		max_polarity=1;
-		max_ranges=1;
-		true_channel=0;
-		pwl_amp=&globals.Flash.vcc1_pwl_amp[0][0][0][0];
-		break;
-	case pwl_vcc2_values:
-		max_polarity=1;
-		max_ranges=1;
-		true_channel=0;
-		pwl_amp=&globals.Flash.vcc2_pwl_amp[0][0][0][0];
-		break;
-	case pwl_load_type_values:
-		max_polarity=load_type_polarities;
-		max_ranges=load_type_ranges;
-		pwl_amp=&globals.Flash.load_type_pwl_time[0][0][0][0];
-		break;
 	}
 	index=true_channel*max_ranges*max_polarity*max_points
 	      +range*max_polarity*max_points
@@ -2275,7 +2202,6 @@ int Set_VI_Cal_Pnt(int parameter,int channel,int calibration_point_number,float
 	case pwl_burst_values:
 	case pwl_rise_time_values:
 	case pwl_slew_values:
-	case pwl_load_type_values:
 		/* exclude relative changes of 45% or more unless < 15 ns */
 		if ( (fabs(cal_point-nom_ampl)/nom_ampl > 0.45) && (fabs(cal_point-nom_ampl)>15e-9)) {
 			return CalibrationPercentError;
@@ -2292,15 +2218,6 @@ int Set_VI_Cal_Pnt(int parameter,int channel,int calibration_point_number,float
 		}
 		break;
 
-	case pwl_vcc1_values:
-	case pwl_vcc2_values:
-		if (fabs(nom_ampl) > smallest_allowed_number) {
-			/* exclude relative changes of 30% or more */
-			if (fabs( (cal_point-nom_ampl)/nom_ampl) > 0.3) {
-				return CalibrationPercentError;
-			}
-		}
-		break;
 	}
 
 
@@ -2416,32 +2333,6 @@ int Set_VI_Del_Cal(int parameter,int channel,int calibration_point_number)
 		size_of_short1=sizeof(globals.Flash.slew_pwl_Vc_norm4095);
 		size_of_float1=sizeof(globals.Flash.slew_pwl_time);
 		break;
-	case pwl_vcc1_values:
-		max_polarity=1;
-		max_ranges=1;
-		pointer_short1=&globals.Flash.vcc1_pwl_Vc_norm4095[0][0][0][0];
-		pointer_float1=&globals.Flash.vcc1_pwl_amp[0][0][0][0];
-		size_of_short1=sizeof(globals.Flash.vcc1_pwl_Vc_norm4095);
-		size_of_float1=sizeof(globals.Flash.vcc1_pwl_amp);
-		true_channel=0;
-		break;
-	case pwl_vcc2_values:
-		max_polarity=1;
-		max_ranges=1;
-		pointer_short1=&globals.Flash.vcc2_pwl_Vc_norm4095[0][0][0][0];
-		pointer_float1=&globals.Flash.vcc2_pwl_amp[0][0][0][0];
-		size_of_short1=sizeof(globals.Flash.vcc2_pwl_Vc_norm4095);
-		size_of_float1=sizeof(globals.Flash.vcc2_pwl_amp);
-		true_channel=0;
-		break;
-	case pwl_load_type_values:
-		max_polarity=load_type_polarities;
-		max_ranges=load_type_ranges;
-		pointer_short1=&globals.Flash.load_type_pwl_Vc_norm4095[0][0][0][0];
-		pointer_float1=&globals.Flash.load_type_pwl_time[0][0][0][0];
-		size_of_short1=sizeof(globals.Flash.load_type_pwl_Vc_norm4095);
-		size_of_float1=sizeof(globals.Flash.load_type_pwl_time);
-		break;
 	}
 
 	Get_VI_Rng_Info(parameter,channel,calibration_point_number,&range,&polarity,&entry,&num_in_range,&num_of_ranges);
@@ -2737,34 +2628,6 @@ int Set_VI_Control(int parameter,int channel,float new_ampl,int *point_found,int
 		timing_extrapolation_allowed=NO;
 		top_range_only=YES; /* higher drive voltage = lower ripple in slew */
 		break;
-	case pwl_vcc1_values:
-		max_polarity=1;
-		max_ranges=1;
-		pwl_vc=&globals.Flash.vcc1_pwl_Vc_norm4095[0][0][0][0];
-		pwl_amp=&globals.Flash.vcc1_pwl_amp[0][0][0][0];
-		*UseNegData=0;
-		use_ampl=new_ampl;
-		true_channel=0;
-		break;
-	case pwl_vcc2_values:
-		max_polarity=1;
-		max_ranges=1;
-		pwl_vc=&globals.Flash.vcc2_pwl_Vc_norm4095[0][0][0][0];
-		pwl_amp=&globals.Flash.vcc2_pwl_amp[0][0][0][0];
-		*UseNegData=0;
-		use_ampl=new_ampl;
-		true_channel=0;
-		break;
-	case pwl_load_type_values:
-		max_polarity=load_type_polarities;
-		max_ranges=load_type_ranges;
-		pwl_vc=&globals.Flash.load_type_pwl_Vc_norm4095[0][0][0][0];
-		pwl_amp=&globals.Flash.load_type_pwl_time[0][0][0][0];
-		*UseNegData=0;
-		use_ampl=new_ampl;
-		reciprocal_relationship=YES;
-		timing_extrapolation_allowed=YES;
-		break;
 	}
 
 
@@ -3095,41 +2958,6 @@ int Set_VI_Add_Cal(int parameter,int channel,float cal_point)
 		Set_VI_Control(pwl_slew_values,channel,old_val,&point_found,
 		               &range,&atten_range,&polarity,&entry,&word_out,&actual_pol);
 		break;
-	case pwl_vcc1_values:
-		max_polarity=1;
-		max_ranges=1;
-		true_channel=0;
-		pointer_x_short=&globals.Flash.vcc1_pwl_Vc_norm4095[0][0][0][0];
-		pointer_y_float=&globals.Flash.vcc1_pwl_amp[0][0][0][0];
-		size_of_x_short=sizeof(globals.Flash.vcc1_pwl_Vc_norm4095);
-		size_of_y_float=sizeof(globals.Flash.vcc1_pwl_amp);
-		old_val=globals.ChannelState[true_channel].vcc1;
-		Set_VI_Control(pwl_vcc1_values,channel,old_val,&point_found,
-		               &range,&atten_range,&polarity,&entry,&word_out,&actual_pol);
-		break;
-	case pwl_vcc2_values:
-		max_polarity=1;
-		max_ranges=1;
-		true_channel=0;
-		pointer_x_short=&globals.Flash.vcc2_pwl_Vc_norm4095[0][0][0][0];
-		pointer_y_float=&globals.Flash.vcc2_pwl_amp[0][0][0][0];
-		size_of_x_short=sizeof(globals.Flash.vcc2_pwl_Vc_norm4095);
-		size_of_y_float=sizeof(globals.Flash.vcc2_pwl_amp);
-		old_val=globals.ChannelState[true_channel].vcc2;
-		Set_VI_Control(pwl_vcc2_values,channel,old_val,&point_found,
-		               &range,&atten_range,&polarity,&entry,&word_out,&actual_pol);
-		break;
-	case pwl_load_type_values:
-		max_polarity=load_type_polarities;
-		max_ranges=load_type_ranges;
-		pointer_x_short=&globals.Flash.load_type_pwl_Vc_norm4095[0][0][0][0];
-		pointer_y_float=&globals.Flash.load_type_pwl_time[0][0][0][0];
-		size_of_x_short=sizeof(globals.Flash.load_type_pwl_Vc_norm4095);
-		size_of_y_float=sizeof(globals.Flash.load_type_pwl_time);
-		old_val=globals.ChannelState[channel].load_type;
-		Set_VI_Control(pwl_load_type_values,channel,old_val,&point_found,
-		               &range,&atten_range,&polarity,&entry,&word_out,&actual_pol);
-		break;
 
 	}
 
@@ -3239,8 +3067,6 @@ int Set_VI_Add_Cal(int parameter,int channel,float cal_point)
 	/* update output */
 	switch (parameter) {
 	case (pwl_ampl_values):
-	case (pwl_vcc1_values):
-	case (pwl_vcc2_values):
 		Set_Amplitude(0,0,0,0,0,0,channel,cal_point,0);
 		break;
 
@@ -3271,10 +3097,6 @@ int Set_VI_Add_Cal(int parameter,int channel,float cal_point)
 	case pwl_slew_values:
 		Set_slew(0,0,0,channel,cal_point);
 		break;
-
-	case pwl_load_type_values:
-		Set_avrq_res(0,0,0,channel,cal_point);
-		break;
 	}
 
 	return OK;
@@ -3351,23 +3173,6 @@ int Get_VI_Rng_Info(int parameter, int channel, int calibration_point_number, in
 		max_ranges=timing_ranges;
 		pwl=&globals.Flash.slew_pwl_time[0][0][0][0];
 		break;
-	case pwl_vcc1_values:
-		max_polarity=1;
-		max_ranges=1;
-		pwl=&globals.Flash.vcc1_pwl_amp[0][0][0][0];
-		true_channel=0;
-		break;
-	case pwl_vcc2_values:
-		max_polarity=1;
-		max_ranges=1;
-		pwl=&globals.Flash.vcc2_pwl_amp[0][0][0][0];
-		true_channel=0;
-		break;
-	case pwl_load_type_values:
-		max_polarity=load_type_polarities;
-		max_ranges=load_type_ranges;
-		pwl=&globals.Flash.load_type_pwl_time[0][0][0][0];
-		break;
 	}
 
 
@@ -3464,20 +3269,6 @@ int Check_MinMax_Cal(int channel,int parameter)
 		       || Set_slew(1,0,0,channel,globals.Flash.max_slew[channel]);
 		break;
 
-	case (pwl_vcc1_values):
-		status=Set_Amplitude(1,0,0,0,0,0,channel,0.0,0)
-		       || Set_Amplitude(1,0,0,0,0,0,channel,globals.Flash.vcc1_max[0],0);
-		break;
-
-	case (pwl_vcc2_values):
-		status=Set_Amplitude(1,0,0,0,0,0,channel,0.0,0)
-		       || Set_Amplitude(1,0,0,0,0,0,channel,globals.Flash.vcc2_max[0],0);
-		break;
-
-	case pwl_load_type_values:
-		status=Set_avrq_res(1,0,0,channel,globals.Flash.low_load_type[channel])
-		       || Set_avrq_res(1,0,0,channel,globals.Flash.high_load_type[channel]);
-		break;
 	}
 
 	if (status) {
@@ -3838,80 +3629,6 @@ int Set_current_limit(int check_possible_only,int channel,float new_adj_current_
 }
 
 
-int Set_avrq_res(int check_possible_only,int word_override,int range_override,int channel,float new_res)
-{
-	int point_found,relay_range,UseNegData,entry,actual_pol,word_out,dummy;
-
-	if (!globals.Flash.switchable_load[channel]) {
-		return Unrecognized;
-	}
-
-	/* abandon if high channel selected by user but not enabled by firmware */
-	if (channel && !globals.Flash.ChanKey_load_type) {
-		return InvalidChannel;
-	}
-
-	if (!check_possible_only) {
-		int i, check_valid;
-
-		for (i=0; i<max_channels; ++i) {
-			TestState[i]=globals.ChannelState[i];
-		}
-		TestState[channel].load_type=new_res;
-		if ((check_valid=Error_check(TestState))) {
-			return check_valid;
-		}
-	}
-
-	/* find appropriate range/fine settings from piece-wise linear data in flash memory */
-	if (word_override) {
-		word_out=word_override;
-		relay_range=range_override;
-	} else {
-		/* ugly hack - fix me?
-		   CH2 = opto VCC
-		   Calibrate res at 3.0V
-		   Compensate for >3.0V */
-		float compensated_new_res;
-
-		if (globals.ChannelState[0].vcc2 > 0.0) {
-			compensated_new_res = new_res * 3.0/globals.ChannelState[0].vcc2;
-		} else {
-			return amplitude_lower_limit;
-		}
-
-		int status;
-		if ((status=Set_VI_Control(pwl_load_type_values,channel,compensated_new_res,&point_found,
-		                           &relay_range,&dummy,&UseNegData,&entry,&word_out,&actual_pol))) {
-			return status;
-		}
-	}
-
-	if (check_possible_only) {
-		if (point_found) {
-			return OK;
-		} else {
-			return CalibrationMinMaxError;
-		}
-	}
-
-	set_dac(globals.Flash.load_type_dac[channel],word_out);
-
-	/* no ranges are used */
-
-	/* update variables if OK */
-	if (new_res!=globals.ChannelState[channel].load_type) {
-		globals.Changes.update_load=YES;
-	}
-
-	globals.ChannelState[channel].load_type = new_res;
-
-	Set_Update_Chans();
-
-	return OK;
-}
-
-
 int Set_slew(int check_possible_only,int word_override,int range_override,int channel,float new_slew)
 {
 	int check_valid;
@@ -3989,174 +3706,6 @@ int Set_slew(int check_possible_only,int word_override,int range_override,int ch
 }
 
 
-int Set_avrq_ampl(int check_possible_only,int word_override,int range_override,int channel,float new_avrq_ampl)
-{
-	int check_valid;
-	int status,point_found,relay_range,UseNegData,entry,actual_pol,word_out,dummy;
-	int true_channel;
-	int use_pwl;
-
-	if (!globals.Flash.enable_avrq_extra_ampls) {
-		return Unrecognized;
-	}
-
-	/* check channels */
-	if ((channel < 1) || (channel>4)) {
-		return InvalidChannel;
-	}
-
-	if (channel == 1) {
-		true_channel = 1;
-	} else {
-		true_channel = 0;
-	}
-
-	if (!check_possible_only) {
-		/* check duty cycle */
-		int i;
-		for (i=0; i<max_channels; ++i) {
-			TestState[i]=globals.ChannelState[i];
-		}
-		switch (channel) {
-		case 1:
-			TestState[true_channel].amplitude=new_avrq_ampl;
-			break;
-		case 2:
-			TestState[true_channel].vcc1=new_avrq_ampl;
-			if (TestState[true_channel].vlogic >= smallest_allowed_number) {
-				TestState[true_channel].vlogic = new_avrq_ampl;
-			}
-			break;
-		case 3:
-			TestState[true_channel].vcc2=new_avrq_ampl;
-			break;
-		case 4:
-			TestState[true_channel].vlogic=new_avrq_ampl;
-			break;
-		}
-		if ((check_valid=Error_check(TestState))) {
-			return check_valid;
-		}
-	}
-
-	/* find appropriate range/fine settings from piece-wise linear data in flash memory */
-	if (word_override) {
-		word_out=word_override;
-		relay_range=range_override;
-	} else {
-		switch (channel) {
-		case 1:
-			use_pwl = pwl_ampl_values;
-			break;
-		case 2:
-			use_pwl = pwl_vcc1_values;
-			break;
-		case 3:
-			use_pwl = pwl_vcc2_values;
-			break;
-		case 4:
-			use_pwl = pwl_vlogic_values;
-			if (new_avrq_ampl > 0.0) {
-				new_avrq_ampl = globals.ChannelState[true_channel].vcc1;
-			}
-			break;
-		}
-
-		if (use_pwl != pwl_vlogic_values)
-			if ((status=Set_VI_Control(use_pwl,channel,new_avrq_ampl,&point_found,&relay_range,&dummy,&UseNegData,&entry,&word_out,&actual_pol))) {
-				return status;
-			}
-
-	}
-
-	if (check_possible_only) {
-		if (point_found) {
-			return OK;
-		} else {
-			return CalibrationMinMaxError;
-		}
-	}
-
-
-	/* update variables if OK */
-	switch (channel) {
-	case 1:
-		Set_avrq_ampl(0,0,0,4,0.0);
-
-		set_dac(1,word_out);
-
-		globals.Registers.avrq_reg = globals.Registers.avrq_reg & 0x3f;
-		I2C_Write(PCF8574A+rise_time_port,globals.Registers.avrq_reg);
-
-		if (new_avrq_ampl!=globals.ChannelState[true_channel].amplitude) {
-			globals.Changes.update_amp=YES;
-		}
-		globals.ChannelState[true_channel].amplitude=new_avrq_ampl;
-		break;
-	case 2:
-		set_dac(1,word_out);
-
-		globals.Registers.avrq_reg = 0x40 | (globals.Registers.avrq_reg & 0xbf);
-		I2C_Write(PCF8574A+rise_time_port,globals.Registers.avrq_reg);
-
-		if (new_avrq_ampl!=globals.ChannelState[true_channel].vcc1) {
-			globals.Changes.update_amp=YES;
-		}
-		globals.ChannelState[true_channel].vcc1=new_avrq_ampl;
-		break;
-	case 3:
-		set_dac(0,word_out);
-		if (new_avrq_ampl!=globals.ChannelState[true_channel].vcc2) {
-			globals.Changes.update_amp=YES;
-		}
-		globals.ChannelState[true_channel].vcc2=new_avrq_ampl;
-
-		/* update ampl-dependent load resistance */
-		Set_avrq_res(0,0,0,0,globals.ChannelState[0].load_type);
-
-		break;
-	case 4:
-		if (new_avrq_ampl >= smallest_allowed_number) {
-			relay_range = 0x80;
-		} else {
-			relay_range = 0x0;
-		}
-		globals.Registers.avrq_reg = relay_range | (globals.Registers.avrq_reg & 0x7f);
-		I2C_Write(PCF8574A+rise_time_port,globals.Registers.avrq_reg);
-
-		if (new_avrq_ampl!=globals.ChannelState[true_channel].vlogic) {
-			globals.Changes.update_amp=YES;
-		}
-		globals.ChannelState[true_channel].vlogic=new_avrq_ampl;
-		break;
-	}
-
-
-	/* reduce vlogic based on vcc1, if required */
-	if (channel == 2) {
-		if (globals.ChannelState[true_channel].vlogic > smallest_allowed_number) {
-			Set_avrq_ampl(0,0,0,4,globals.ChannelState[true_channel].vcc1);
-		} else {
-			Set_avrq_ampl(0,0,0,4,0.0);
-		}
-	}
-
-	/* reduce vcc1 if ibias is active, because they share a DAC */
-	if ((channel == 1) && (globals.ChannelState[true_channel].amplitude > smallest_allowed_number)) {
-		globals.ChannelState[0].vcc1=0.0;
-	}
-
-	/* reduce vcc1 if ibias is active, because they share a DAC */
-	if ((channel == 2) && (globals.ChannelState[true_channel].vcc1 > smallest_allowed_number)) {
-		globals.ChannelState[1].amplitude=0.0;
-	}
-
-	Set_Update_Chans();
-
-	return OK;
-}
-
-
 int go_cal(CalStruct *caldata)
 {
 	int i, status, points;
@@ -4531,10 +4080,6 @@ void Set_Rcl(int setting_num)
 		globals.ChannelState[i].rise_time=globals.Flash.rcl_rise_time[i][setting_num];
 		globals.ChannelState[i].slew=globals.Flash.rcl_slew[i][setting_num];
 
-		globals.ChannelState[i].vcc1=globals.Flash.rcl_vcc1[i][setting_num];
-		globals.ChannelState[i].vcc2=globals.Flash.rcl_vcc2[i][setting_num];
-		globals.ChannelState[i].vlogic=globals.Flash.rcl_vlogic[i][setting_num];
-
 		globals.ChannelState[i].soft_current_limit=globals.Flash.rcl_soft_current_limit[i][setting_num];
 		globals.ChannelState[i].load_type=globals.Flash.rcl_load[i][setting_num];
 
@@ -4602,10 +4147,6 @@ void Set_Rcl(int setting_num)
 			Set_Offset(0,0,0,0,i,globals.ChannelState[i].offset);
 		}
 
-		Set_avrq_ampl(0,0,0,2,globals.ChannelState[i].vcc1);
-		Set_avrq_ampl(0,0,0,3,globals.ChannelState[i].vcc2);
-		Set_avrq_ampl(0,0,0,4,globals.ChannelState[i].vlogic);
-
 		Set_Output_State(i,globals.ChannelState[i].output_state);
 
 	}
@@ -4642,9 +4183,6 @@ void Set_Sav(int setting_num)
 		globals.Flash.rcl_slew[i][setting_num]=globals.ChannelState[i].slew;
 		globals.Flash.rcl_soft_current_limit[i][setting_num]=globals.ChannelState[i].soft_current_limit;
 		globals.Flash.rcl_load[i][setting_num]=globals.ChannelState[i].load_type;
-		globals.Flash.rcl_vcc1[i][setting_num]=globals.ChannelState[i].vcc1;
-		globals.Flash.rcl_vcc2[i][setting_num]=globals.ChannelState[i].vcc2;
-		globals.Flash.rcl_vlogic[i][setting_num]=globals.ChannelState[i].vlogic;
 
 		/* integers	 		setting_nums
 		globals.ChannelState[i].zout					50 (1) or min (0)
diff --git a/device-functions.h b/device-functions.h
index cdbbd9c..9e47de2 100644
--- a/device-functions.h
+++ b/device-functions.h
@@ -57,9 +57,7 @@ int Set_Burst_Count(int channel,int count,float new_burst_time);
 int Set_Burst_Time(int check_possible_only,int word_override,int range_override,int channel,float new_burst_time);
 int Set_rise_time(int check_possible_only,int word_override,int range_override,int channel,float new_burst_time);
 int Set_current_limit(int check_possible_only,int channel,float adj_current_limit);
-int Set_avrq_res(int check_possible_only,int word_override,int range_override,int channel,float new_res);
 int Set_slew(int check_possible_only,int word_override,int range_override,int channel,float new_burst_time);
-int Set_avrq_ampl(int check_possible_only,int word_override,int range_override,int channel,float new_avrq_ampl);
 int go_cal(CalStruct *caldata);
 void cal_string(char *parameter, CalStruct *caldata);
 int self_cal();
diff --git a/error_utils.c b/error_utils.c
index bd52ccc..a98c7af 100644
--- a/error_utils.c
+++ b/error_utils.c
@@ -41,7 +41,7 @@ void set_gpib_error_flags (int error_num)
 	case UnknownUnits:
 	case InvalidChannel:
 	case ThisShouldntHappen:
-	case ampl_min_max_obsolete:
+	case obsolete_feature:
 	case zero_equiv_ampl_too_large:
 		GPIB_Set_Command_Error();
 		break;
@@ -539,8 +539,8 @@ void get_error_text(gchar **response, int error_num)
 		format_error_text(response,-300,"Not ready for commands yet. Still booting up.");
 		break;
 
-	case ampl_min_max_obsolete:
-                format_error_text(response,-200,"Ampl min/max mode is obsolete. Use fixed ampl points instead.");
+	case obsolete_feature:
+                format_error_text(response,-200,"Obsolete feature enabled. Re-program.");
                 break;
 
 	case zero_equiv_ampl_too_large:
@@ -659,15 +659,12 @@ int Error_check(ChannelStruct ChannelStateToTest[max_channels])
 		if (!globals.Flash.ChanKey_current_limit) for (i=1; i<num_of_chan; ++i) {
 				ChannelStateToTest[i].soft_current_limit=ChannelStateToTest[0].soft_current_limit;
 			}
-		for (i=1; i<num_of_chan; ++i) {
-			ChannelStateToTest[i].vcc1=ChannelStateToTest[0].vcc1;
-		}
-		for (i=1; i<num_of_chan; ++i) {
-			ChannelStateToTest[i].vcc2=ChannelStateToTest[0].vcc2;
-		}
-		for (i=1; i<num_of_chan; ++i) {
-			ChannelStateToTest[i].vlogic=ChannelStateToTest[0].vlogic;
-		}
+	}
+
+
+	// check for non-channel-specific obsolete features
+	if ( globals.Flash.enable_avrq_extra_ampls ) {
+		report_error = obsolete_feature;
 	}
 
 
@@ -701,9 +698,9 @@ int Error_check(ChannelStruct ChannelStateToTest[max_channels])
 		}
 
 
-		// check for obsolete configurations - but allow further checks
-		if (globals.Flash.ampl_min_max_only[i]) {
-			report_error = ampl_min_max_obsolete;
+		// check for channel-specific obsolete configurations - but allow further checks
+		if ( globals.Flash.ampl_min_max_only[i] ) {
+			report_error = obsolete_feature;
 		}
 
 		if (fabs(globals.Flash.ampl_zero_equiv[i] > 200.0)) {
@@ -1069,32 +1066,6 @@ int Error_check(ChannelStruct ChannelStateToTest[max_channels])
 		/* disable amplitude checks if amplitude calibration is in progress */
 		if (!globals.Flags.extended_ampl_min_max) {
 
-			globals.Constraints.err_max_vcc1[i]=globals.Flash.vcc1_max[i];
-			globals.Constraints.err_max_vcc2[i]=globals.Flash.vcc2_max[i];
-			globals.Constraints.err_max_vlogic[i]=ChannelStateToTest[0].vcc1;
-			globals.Constraints.err_min_vcc1[i]=0.0;
-			globals.Constraints.err_min_vcc2[i]=globals.Flash.vcc2_min[i];
-			globals.Constraints.err_min_vlogic[i]=0.0;
-			if ( ChannelStateToTest[i].vcc1>(1.001*globals.Constraints.err_max_vcc1[i])) {
-				report_error=amplitude_upper_limit;
-			}
-			if ( ChannelStateToTest[i].vcc2>(1.001*globals.Constraints.err_max_vcc2[i])) {
-				report_error=amplitude_upper_limit;
-			}
-			if ( ChannelStateToTest[i].vlogic>(1.001*globals.Constraints.err_max_vlogic[i])) {
-				report_error=amplitude_upper_limit;
-			}
-			if ( ChannelStateToTest[i].vcc1<globals.Constraints.err_min_vcc1[i]) {
-				report_error=amplitude_lower_limit;
-			}
-			if ( ChannelStateToTest[i].vcc2<globals.Constraints.err_min_vcc2[i]) {
-				report_error=amplitude_lower_limit;
-			}
-			if ( ChannelStateToTest[i].vlogic<globals.Constraints.err_min_vlogic[i]) {
-				report_error=amplitude_lower_limit;
-			}
-
-
 			/* --- check fixed amplitudes ---- */
 
 			float min_fixed_ampl, max_fixed_ampl;
diff --git a/flash.c b/flash.c
index 0cf05a8..54bc17e 100644
--- a/flash.c
+++ b/flash.c
@@ -851,21 +851,6 @@ static void initFlashValues(FlashStruct *mem)
 
 	mem->copy_max_channels=max_channels;		/* copy to flash, so it can be read by diag:eprom:int? */
 
-
-	/* avrq tests
-	mem->enable_avrq_extra_ampls=1;
-	mem->channels=2;
-	mem->ChanKey_amplitude=1;
-	mem->current_enabled[1]=1;
-	mem->voltage_enabled[1]=0;
-	mem->fully_programmed=2;
-	mem->ampl_DAC[0]=-1;
-	mem->ampl_pwl_amp[1][0][0][1]=0.025;
-	mem->max_ampl[1]=0.022;
-	mem->max_vout[1]=0.022;
-	mem->ampl_zero_equiv[1]=0.001;
-	*/
-
 }
 
 static gpointer userflashwritethreadfunc(gpointer data)
diff --git a/globals.h b/globals.h
index a39fe3b..3617762 100644
--- a/globals.h
+++ b/globals.h
@@ -91,7 +91,7 @@
 #define DelayRangeError 77
 #define ExternalModeDelayError 78
 #define PRF_limited_by_offset 79
-#define ampl_min_max_obsolete 80
+#define obsolete_feature 80
 #define zero_equiv_ampl_too_large 81
 
 
@@ -126,11 +126,7 @@
 #define pwl_period_values 5
 #define pwl_burst_values 6
 #define pwl_rise_time_values 7
-#define pwl_load_type_values 8
 #define pwl_slew_values 9
-#define pwl_vcc1_values 10
-#define pwl_vcc2_values 11
-#define pwl_vlogic_values 12
 
 #define dac_max 8191
 #define dac_min 819
@@ -358,10 +354,6 @@ typedef struct {
 	float soft_current_limit;       /* adjustable protection trip-point */
 	float slew;                     /* slew rate */
 
-	float vcc1;                     /* AVRQ control voltages */
-	float vcc2;
-	float vlogic;
-
 } ChannelStruct;
 
 
@@ -602,17 +594,16 @@ typedef struct {
 	float rcl_rise_time[max_channels][max_stored_settings];		/* 7406 - rcl/sav data for rise time */
 	short rise_time_pwl_Vc_norm4095[max_channels][ampl_ranges][ampl_polarities][points_in_range];	/* 7438 */
 
-#define AVRQ_ZERO_EQUIV 3.0
-	short vcc1_pwl_Vc_norm4095[1][1][1][points_in_range];
-	float vcc1_pwl_amp[1][1][1][points_in_range];
-	short vcc2_pwl_Vc_norm4095[1][1][1][points_in_range];
-	float vcc2_pwl_amp[1][1][1][points_in_range];
-	float rcl_vcc1[max_channels][max_stored_settings];
-	float rcl_vcc2[max_channels][max_stored_settings];
-	float rcl_vlogic[max_channels][max_stored_settings];
-	float vcc1_max[max_channels];
-	float vcc2_min[max_channels];
-	float vcc2_max[max_channels];
+	short vcc1_pwl_Vc_norm4095[1][1][1][points_in_range];	/* no longer used */
+	float vcc1_pwl_amp[1][1][1][points_in_range];		/* no longer used */
+	short vcc2_pwl_Vc_norm4095[1][1][1][points_in_range];   /* no longer used */
+	float vcc2_pwl_amp[1][1][1][points_in_range];		/* no longer used */
+	float rcl_vcc1[max_channels][max_stored_settings];	/* no longer used */
+	float rcl_vcc2[max_channels][max_stored_settings];	/* no longer used */
+	float rcl_vlogic[max_channels][max_stored_settings];	/* no longer used */
+	float vcc1_max[max_channels];				/* no longer used */
+	float vcc2_min[max_channels];				/* no longer used */
+	float vcc2_max[max_channels];				/* no longer used */
 
 	float max_duty_mid1[max_channels];		/* addr 8078 - for AVO-8D3-B, etc */
 	float duty_ampl_mid1[max_channels];          	/* addr 8086 */
@@ -765,12 +756,6 @@ typedef struct {
 	float err_max_slew[max_channels];
 	float err_min_load_type[max_channels];
 	float err_max_load_type[max_channels];
-	float err_min_vcc1[max_channels];
-	float err_max_vcc1[max_channels];
-	float err_min_vcc2[max_channels];
-	float err_max_vcc2[max_channels];
-	float err_min_vlogic[max_channels];
-	float err_max_vlogic[max_channels];
 	float composite_min_burst_time[max_channels];   /* minimum ever possible gap, taking into account all constraints */
 } ConstraintsStruct;
 
diff --git a/menus.c b/menus.c
index c7e60bc..4781356 100644
--- a/menus.c
+++ b/menus.c
@@ -166,7 +166,6 @@
 #define Show_route_secondary 1600
 #define Show_load_type 1700
 #define Show_slew 1800
-#define Show_avrq_ampl 1900
 
 
 /* KEY MENU-JUGGLING VARIABLES - controlling what is actually shown on the display */
@@ -576,24 +575,6 @@ void Show_Main_Menu(void)
 	}
 
 
-	/*----- display AVRQ extra amplitudes -----*/
-
-	if (globals.Flash.enable_avrq_extra_ampls) {
-		for (chan=2; chan<5; ++chan) {
-			++LCD_entry;
-			Main_Menu_Structure[LCD_entry]=Submenu1_avrq+chan;
-			LCD_row=LCD_entry % LCD_rows;
-			LCD_col=((LCD_entry % LCD_max_entries_per_page) / LCD_rows) * LCD_col_width + 1;
-
-			show_item=Show_avrq_ampl+chan;
-			menu_string = g_string_append (menu_string, "AMP");
-			g_string_append_printf (menu_string, "%d", chan+1);
-			menu_string = g_string_append (menu_string, ":");
-			Display_Number_on_LCD(Menu_Is_Item_Visible(LCD_entry), LCD_row,LCD_col,menu_string->str,show_item,sig_dig,LCD_col_width-1);
-			g_string_erase (menu_string, 0, -1);
-		}
-	}
-
 	/*----- display soft_current_limit, as appropriate -----*/
 
 	for (chan=0; chan<(globals.Flash.ChanKey_current_limit?globals.Flash.channels:1); ++chan) {
@@ -1118,22 +1099,6 @@ static void Display_Number_on_LCD(int Is_Item_Visible,int LCD_row,int LCD_col,ch
 			}
 			break;
 
-		case Show_avrq_ampl:
-			switch (channel) {
-			case 2:
-				Submenu_Value=globals.ChannelState[0].vcc1;
-				break;
-			case 3:
-				Submenu_Value=globals.ChannelState[0].vcc2;
-				break;
-			case 4:
-				Submenu_Value=globals.ChannelState[0].vlogic;
-				break;
-			}
-			show_plus_sign=YES;
-			units = g_strdup("V");
-			break;
-
 		case Show_offset:
 			Submenu_Value=globals.ChannelState[channel].offset;
 			show_plus_sign=YES;
@@ -1351,15 +1316,7 @@ static void Submenu_Display(int change_selection)
 		break;
 
 	case Submenu1_amp:
-		if (globals.Flash.enable_avrq_extra_ampls) {
-			if (channel==0) {
-				title = g_strdup ("Amplitude1 (HV):");
-			} else {
-				title = g_strdup ("Amplitude2 (IBIAS):");
-			}
-		} else {
-			title = g_strdup ("Amplitude:");
-		}
+		title = g_strdup ("Amplitude:");
 
 		if (number_of_fixed_ampl_points(channel)>0) {
 			int fixed_count;
@@ -1384,23 +1341,6 @@ static void Submenu_Display(int change_selection)
 
 		break;
 
-	case Submenu1_avrq:
-
-		switch (channel) {
-		case 2:
-			title = g_strdup ("Amplitude3 (Vcc1):");
-			break;
-		case 3:
-			title = g_strdup ("Amplitude4 (Vcc2):");
-			break;
-		case 4:
-			title = g_strdup ("Amplitude5 (Vlogic):");
-			break;
-		}
-
-		Submenu_Numeric_Parameter=Show_avrq_ampl+channel;
-		break;
-
 	case Submenu1_burst_count:
 		title = g_strdup ("Pulses per burst:");
 		Submenu_Numeric_Parameter=Show_Burst_Count+channel;
@@ -2212,25 +2152,6 @@ static int Submenu_Mult_Value(float mult_by)
 		}
 		break;
 
-	case Show_avrq_ampl:
-		if (fabs(new_value)<AVRQ_ZERO_EQUIV && mult_by>1.0) {
-			new_value=AVRQ_ZERO_EQUIV;
-		} else if (fabs(new_value) < AVRQ_ZERO_EQUIV) {
-			new_value=smallest_allowed_number;
-		}
-
-		if (channel == 4) { /* vlogic */
-			if (mult_by > 1.0) {
-				new_value = globals.ChannelState[0].vcc1;
-			} else {
-				new_value = 0.0;
-			}
-		}
-		if (error_num=Set_Amplitude(0,0,0,0,0,0,channel,new_value,0)) {
-			Submenu_Value=new_value;
-		}
-		break;
-
 	case Show_Burst_Time:
 		if (error_num=Set_Burst_Time(0,0,0,channel,new_value)) {
 			Submenu_Value=new_value;
@@ -2480,21 +2401,6 @@ static void Submenu_Service_Encoder(int encoder_change)
 			}
 		}
 
-		else if (abs_Submenu_Value < AVRQ_ZERO_EQUIV && (Submenu_Numeric_Parameter-channel)==Show_avrq_ampl) {
-			abs_Submenu_Value=AVRQ_ZERO_EQUIV;
-
-			if (channel == 4) { /* vlogic */
-				if (encoder_change > 0) {
-					Submenu_Value = abs_Submenu_Value = globals.ChannelState[0].vcc1;
-					encoder_change = 0;
-				} else {
-					Submenu_Value = abs_Submenu_Value = 0.0;
-					encoder_change = 0;
-				}
-			}
-
-		}
-
 		else if ((channel<max_channels) && abs_Submenu_Value<globals.Flash.ampl_zero_equiv[channel] && (Submenu_Numeric_Parameter-channel)==Show_offset) {
 			abs_Submenu_Value=globals.Flash.ampl_zero_equiv[channel];
 			if (globals.Flash.max_offset[channel]<globals.Flash.ampl_zero_equiv[channel]) {
@@ -2721,17 +2627,6 @@ static void Submenu_Service_Encoder(int encoder_change)
 		}
 		break;
 
-	case Show_avrq_ampl:
-		if (new_value < AVRQ_ZERO_EQUIV) {
-			new_value=0.0;
-		}
-
-		if (error_num=Set_Amplitude(0,0,0,0,0,0,channel,new_value,0)) {
-			Submenu_Value=new_value;
-		}
-
-		break;
-
 	case Show_offset:
 		if (globals.Flash.min_offset[channel]==globals.Flash.max_offset[channel]) {
 			return;
diff --git a/parser.c b/parser.c
index 63f0e57..831e0aa 100644
--- a/parser.c
+++ b/parser.c
@@ -112,7 +112,6 @@ static int Go_rcl_53(gchar** response, int channel, char *parameter,char *units,
 static int Go_sav_54(gchar** response, int channel, char *parameter,char *units,int command_type);
 static int Go_soft_current_limit_96(gchar** response, int channel, char *parameter,char *units,int command_type);
 static int Go_curr_slew_98(gchar** response, int channel, char *parameter,char *units,int command_type);
-static int Go_avrq_ampl(gchar** response, int channel, char *parameter,char *units,int command_type);
 static int Go_cal_100(gchar** response, int channel, char *parameter,char *units,int command_type);
 static int Go_cal_interval_101(gchar** response, int channel, char *parameter,char *units,int command_type);
 static int Go_eprom_reset_102(gchar** response, int channel, char *parameter,char *units,int command_type);
@@ -1030,9 +1029,6 @@ void Parser_main (char *raw_in, int interactive_terminal, void(*cbfunc)(gpointer
 			case 96:
 				error_num=Go_soft_current_limit_96(&response,channel,parameter,units,command_type);
 				break;
-			case 97:
-				error_num=Go_amp_pnt_83(&response,channel,parameter,units,command_type,pwl_load_type_values);
-				break;
 			case 98:
 				error_num=Go_curr_slew_98(&response,channel,parameter,units,command_type);
 				break;
@@ -1113,10 +1109,7 @@ static int Parser_channel (int *channel,int with_id_code,int routine_num)
 
 
 	/* compare to maximum number of channels allowed */
-	if (*channel>1 && *channel>globals.Flash.channels && !globals.Flash.enable_avrq_extra_ampls) {
-		return InvalidChannel;
-	}
-	if (*channel>5 && globals.Flash.enable_avrq_extra_ampls) {
+	if (*channel>1 && *channel>globals.Flash.channels) {
 		return InvalidChannel;
 	}
 
@@ -1683,9 +1676,6 @@ static int Go_ampl_26(gchar** response, int channel, char *parameter,char *units
 		return status;
 	}
 	if (!strcmp(mode,"v")) {
-		if (globals.Flash.enable_avrq_extra_ampls && channel > 1) {
-			return Go_avrq_ampl (response, channel, parameter, units, command_type);
-		}
 		if (!globals.Flash.voltage_enabled[channel]) {
 			return Unrecognized;
 		}
@@ -3425,22 +3415,9 @@ static int Go_amp_pnt_83(gchar** response, int channel, char *parameter,char *un
 		if (status = check_channel_ok (channel, globals.Flash.channels, globals.Flash.ChanKey_amplitude)) {
 			return status;
 		}
-		if (!globals.Flash.enable_avrq_extra_ampls && !globals.Flash.voltage_enabled[channel] && !globals.Flash.current_enabled[channel]) {
+		if (!globals.Flash.voltage_enabled[channel] && !globals.Flash.current_enabled[channel]) {
 			return Unrecognized;
 		}
-		if ((channel > 1) && globals.Flash.enable_avrq_extra_ampls) {
-			switch (channel) {
-			case 2:
-				cal_type=pwl_vcc1_values;
-				break;
-			case 3:
-				cal_type=pwl_vcc2_values;
-				break;
-			default:
-				return InvalidChannel;
-				break;
-			}
-		}
 		break;
 	case pwl_rise_time_values:
 		if (status = check_channel_ok (channel, globals.Flash.channels, globals.Flash.ChanKey_rise_time)) {
@@ -3458,14 +3435,6 @@ static int Go_amp_pnt_83(gchar** response, int channel, char *parameter,char *un
 			return Unrecognized;
 		}
 		break;
-	case pwl_load_type_values:
-		if (status = check_channel_ok (channel, globals.Flash.channels, globals.Flash.ChanKey_load_type)) {
-			return status;
-		}
-		if (!globals.Flash.switchable_load[channel]) {
-			return Unrecognized;
-		}
-		break;
 	case pwl_os_values:
 		if (status = check_channel_ok (channel, globals.Flash.channels, globals.Flash.ChanKey_offset)) {
 			return status;
@@ -3945,68 +3914,6 @@ static int Go_curr_slew_98(gchar** response, int channel, char *parameter,char *
 }
 
 
-static int Go_avrq_ampl(gchar** response, int channel, char *parameter,char *units,int command_type)
-{
-	float new_ampl;
-	int status;
-	float min_val,max_val,cur_val;
-
-	new_ampl=1.0;
-
-	switch (channel) {
-	case 2:
-		min_val=globals.Constraints.err_min_vcc1[0];
-		max_val=globals.Constraints.err_max_vcc1[0];
-		cur_val=globals.ChannelState[0].vcc1;
-		break;
-	case 3:
-		min_val=globals.Constraints.err_min_vcc2[0];
-		max_val=globals.Constraints.err_max_vcc2[0];
-		cur_val=globals.ChannelState[0].vcc2;
-		break;
-	case 4:
-		min_val=globals.Constraints.err_min_vlogic[0];
-		max_val=globals.Constraints.err_max_vlogic[0];
-		cur_val=globals.ChannelState[0].vlogic;
-		break;
-	default:
-		return InvalidChannel;
-		break;
-	}
-
-	switch (command_type) {
-	case command_param_units:
-		if (status=Handle_Units(&new_ampl,units,"v")) {
-			return status;
-		}
-		/* no break */
-
-	case command_withparam:
-		if (status = process_float_param (parameter, &new_ampl, min_val, max_val, NORMAL_ZERO)) {
-			return status;
-		}
-		return Set_Amplitude(0,0,0,0,0,0,channel,new_ampl,0);
-		break;
-
-	case query_simple:
-
-		return query_float(response, cur_val);
-		break;
-
-	case query_param:
-
-		return query_min_max_float (response, parameter, min_val, max_val);
-		break;
-
-	default:
-		return SyntaxError;
-		break;
-	}
-
-	return ThisShouldntHappen;
-}
-
-
 static int Go_cal_100(gchar** response, int channel, char *parameter,char *units,int command_type)
 {
 	int no_report, status;
-- 
cgit