A little auto-calibration utility, for boards
that support it.
- Right now, it only supports NI E series boards,
- but it should be easily portable.
-
- A few things need improvement here:
- - current system gets "close", but doesn't
- do any fine-tuning
- - no pre/post gain discrimination for the
- A/D zero offset.
- - should read (and use) the actual reference
- voltage value from eeprom
- - statistics would be nice, to show how good
- the calibration is.
- - doesn't check unipolar ranges
- - "alternate calibrations" would be cool--to
- accurately measure 0 in a unipolar range
- - more portable
+ copyright (C) 1999,2000,2001,2002 by David Schleef
+ copyright (C) 2003 by Frank Mori Hess
+
*/
+/***************************************************************************
+ * *
+ * This program is free software; you can redistribute it and/or modify *
+ * it under the terms of the GNU Lesser General Public License as *
+ * published by *
+ * the Free Software Foundation; either version 2.1 of the License, or *
+ * (at your option) any later version. *
+ * *
+ ***************************************************************************/
+
#define _GNU_SOURCE
#include <stdio.h>
-#include <comedilib.h>
#include <fcntl.h>
#include <unistd.h>
#include <errno.h>
#include <math.h>
#include <stdlib.h>
#include <string.h>
+#include <assert.h>
#include "calib.h"
char *name;
int status;
int (*cal)( calibration_setup_t *setup);
+ void (*setup_observables)( calibration_setup_t *setup );
+ int ref_eeprom_lsb;
+ int ref_eeprom_msb;
};
-int ni_setup_board( calibration_setup_t *setup , const char *device_name );
-void ni_setup_observables( calibration_setup_t *setup );
-
-int cal_ni_at_mio_16e_2(calibration_setup_t *setup);
-int cal_ni_daqcard_ai_16xe_50(calibration_setup_t *setup);
-int cal_ni_at_mio_16e_1(calibration_setup_t *setup);
-int cal_ni_pci_mio_16e_1(calibration_setup_t *setup);
-int cal_ni_pci_6025e(calibration_setup_t *setup);
-int cal_ni_pci_6035e(calibration_setup_t *setup);
-int cal_ni_pci_6071e(calibration_setup_t *setup);
-int cal_ni_pxi_6071e(calibration_setup_t *setup);
-int cal_ni_at_mio_16e_10(calibration_setup_t *setup);
-int cal_ni_pci_mio_16xe_50(calibration_setup_t *setup);
-int cal_ni_pci_6023e(calibration_setup_t *setup);
-int cal_ni_pci_6024e(calibration_setup_t *setup);
-int cal_ni_at_mio_16xe_50(calibration_setup_t *setup);
-int cal_ni_pci_mio_16xe_10(calibration_setup_t *setup);
-int cal_ni_pci_6052e(calibration_setup_t *setup);
-int cal_ni_pci_mio_16e_4(calibration_setup_t *setup);
-int cal_ni_pci_6032e(calibration_setup_t *setup);
+static int ni_setup_board( calibration_setup_t *setup , const char *device_name );
+static void ni_setup_observables( calibration_setup_t *setup );
+static void ni_setup_observables_611x( calibration_setup_t *setup );
+static void ni67xx_setup_observables( calibration_setup_t *setup );
+
+static int cal_ni_at_mio_16e_2(calibration_setup_t *setup);
+static int cal_ni_daqcard_ai_16xe_50(calibration_setup_t *setup);
+static int cal_ni_at_mio_16e_1(calibration_setup_t *setup);
+static int cal_ni_pci_mio_16e_1(calibration_setup_t *setup);
+static int cal_ni_pci_6014(calibration_setup_t *setup);
+static int cal_ni_pci_6024e(calibration_setup_t *setup);
+static int cal_ni_pci_6025e(calibration_setup_t *setup);
+static int cal_ni_pci_6032e(calibration_setup_t *setup);
+static int cal_ni_pci_6035e(calibration_setup_t *setup);
+static int cal_ni_pci_6036e(calibration_setup_t *setup);
+static int cal_ni_pci_6071e(calibration_setup_t *setup);
+static int cal_ni_pxi_6071e(calibration_setup_t *setup);
+static int cal_ni_at_mio_16e_10(calibration_setup_t *setup);
+static int cal_ni_pci_mio_16xe_50(calibration_setup_t *setup);
+static int cal_ni_pci_6023e(calibration_setup_t *setup);
+static int cal_ni_at_mio_16xe_50(calibration_setup_t *setup);
+static int cal_ni_pci_mio_16xe_10(calibration_setup_t *setup);
+static int cal_ni_pci_6052e(calibration_setup_t *setup);
+static int cal_ni_daqcard_ai_16e_4(calibration_setup_t *setup);
+static int cal_ni_pci_611x(calibration_setup_t *setup);
+static int cal_ni_pci_mio_16e_4(calibration_setup_t *setup);
+static int cal_ni_daqcard_6062e(calibration_setup_t *setup);
+static int cal_ni_daqcard_6024e(calibration_setup_t *setup);
+static int cal_ni_daqcard_6036e(calibration_setup_t *setup);
+static int cal_ni_pci_6711(calibration_setup_t *setup);
+
+static double ni_get_reference( calibration_setup_t *setup, int lsb_loc,int msb_loc);
static struct board_struct boards[]={
- { "at-mio-16e-2", STATUS_DONE, cal_ni_at_mio_16e_2 },
- { "DAQCard-ai-16xe-50", STATUS_DONE, cal_ni_daqcard_ai_16xe_50 },
- { "at-mio-16xe-50", STATUS_SOME, cal_ni_at_mio_16xe_50 },
- { "at-mio-16e-1", STATUS_SOME, cal_ni_at_mio_16e_1 },
- { "pci-mio-16e-1", STATUS_DONE, cal_ni_pci_mio_16e_1 },
- { "pci-6025e", STATUS_SOME, cal_ni_pci_6025e },
- { "pci-6035e", STATUS_DONE, cal_ni_pci_6035e },
- { "pci-6071e", STATUS_SOME, cal_ni_pci_6071e },
- { "pxi-6071e", STATUS_GUESS, cal_ni_pxi_6071e },
- { "at-mio-16e-10", STATUS_GUESS, cal_ni_at_mio_16e_10 },
- { "pci-mio-16xe-50", STATUS_SOME, cal_ni_pci_mio_16xe_50 },
- { "pci-6023e", STATUS_SOME, cal_ni_pci_6023e },
- { "pci-mio-16xe-10", STATUS_DONE, cal_ni_pci_mio_16xe_10 },
- { "pci-6052e", STATUS_DONE, cal_ni_pci_6052e },
- { "pci-6024e", STATUS_SOME, cal_ni_pci_6024e },
- { "pci-mio-16e-4", STATUS_SOME, cal_ni_pci_mio_16e_4 },
- { "pci-6032e", STATUS_SOME, cal_ni_pci_6032e },
+ { "at-ai-16xe-10", STATUS_UNKNOWN, NULL, ni_setup_observables, 0x1b7, 0x1b8 },
+ { "at-mio-16de-10", STATUS_UNKNOWN, NULL, ni_setup_observables, 0x1a7, 0x1a8 },
+ { "at-mio-16e-1", STATUS_DONE, cal_ni_at_mio_16e_1, ni_setup_observables, 0x1a9, 0x1aa },
+ { "at-mio-16e-2", STATUS_DONE, cal_ni_at_mio_16e_2, ni_setup_observables, 0x1a9, 0x1aa },
+ { "at-mio-16e-10", STATUS_DONE, cal_ni_at_mio_16e_10, ni_setup_observables, 0x1a7, 0x1a8 },
+ { "at-mio-16xe-10", STATUS_UNKNOWN, NULL, ni_setup_observables, 0x1b7, 0x1b8 },
+ { "at-mio-16xe-50", STATUS_SOME, cal_ni_at_mio_16xe_50, ni_setup_observables, 0x1b5, 0x1b6 },
+ { "DAQCard-ai-16e-4", STATUS_DONE, cal_ni_daqcard_ai_16e_4, ni_setup_observables, 0x1b5, 0x1b6 },
+ { "DAQCard-ai-16xe-50", STATUS_DONE, cal_ni_daqcard_ai_16xe_50, ni_setup_observables, 0x1be, 0x1bf },
+ { "DAQCard-6024E", STATUS_SOME, cal_ni_daqcard_6024e, ni_setup_observables, -1, -1 },
+ { "DAQCard-6036E", STATUS_DONE, cal_ni_daqcard_6036e, ni_setup_observables, 0x1ab, 0x1ac },
+ { "DAQCard-6062E", STATUS_DONE, cal_ni_daqcard_6062e, ni_setup_observables, 0x1a9, 0x1aa },
+ { "pci-mio-16e-1", STATUS_DONE, cal_ni_pci_mio_16e_1, ni_setup_observables, 0x1a9, 0x1aa },
+ { "pci-mio-16e-4", STATUS_SOME, cal_ni_pci_mio_16e_4, ni_setup_observables, 0x1a9, 0x1aa },
+ { "pci-mio-16xe-10", STATUS_DONE, cal_ni_pci_mio_16xe_10, ni_setup_observables, 0x1ae, 0x1af },
+ { "pci-mio-16xe-50", STATUS_SOME, cal_ni_pci_mio_16xe_50, ni_setup_observables, 0x1b5, 0x1b6 },
+ { "pci-6014", STATUS_SOME, cal_ni_pci_6014, ni_setup_observables, 0x1ab, 0x1ac },
+ { "pci-6023e", STATUS_DONE, cal_ni_pci_6023e, ni_setup_observables, 0x1bb, 0x1bc },
+ { "pci-6024e", STATUS_SOME, cal_ni_pci_6024e, ni_setup_observables, 0x1af, 0x1b0 },
+ { "pci-6025e", STATUS_SOME, cal_ni_pci_6025e, ni_setup_observables, 0x1af, 0x1b0 },
+ { "pci-6031e", STATUS_DONE, cal_ni_pci_mio_16xe_10, ni_setup_observables, 0x1ae, 0x1af },
+ { "pci-6032e", STATUS_DONE, cal_ni_pci_6032e, ni_setup_observables, 0x1ae, 0x1af },
+ { "pci-6033e", STATUS_DONE, cal_ni_pci_6032e, ni_setup_observables, 0x1b7, 0x1b8 },
+ { "pci-6034e", STATUS_UNKNOWN, NULL, ni_setup_observables, -1, -1 },
+ { "pci-6035e", STATUS_DONE, cal_ni_pci_6035e, ni_setup_observables, 0x1af, 0x1b0 },
+ { "pci-6036e", STATUS_DONE, cal_ni_pci_6036e, ni_setup_observables, 0x1ab, 0x1ac },
+ { "pci-6052e", STATUS_DONE, cal_ni_pci_6052e, ni_setup_observables, 0x19f, 0x1a0 },
+ { "pci-6071e", STATUS_DONE, cal_ni_pci_6071e, ni_setup_observables, 0x1a9, 0x1aa },
+ { "pci-6110", STATUS_DONE, cal_ni_pci_611x, ni_setup_observables_611x, 0x1d4, 0x1d5 },
+ { "pci-6111", STATUS_DONE, cal_ni_pci_611x, ni_setup_observables_611x, 0x1d4, 0x1d5 },
+ { "pxi-6025e", STATUS_UNKNOWN, NULL, ni_setup_observables, -1, -1 },
+ { "pxi-6030e", STATUS_UNKNOWN, NULL, ni_setup_observables, -1, -1 },
+ { "pxi-6031e", STATUS_UNKNOWN, NULL, ni_setup_observables, -1, -1 },
+ { "pxi-6040e", STATUS_UNKNOWN, NULL, ni_setup_observables, -1, -1 },
+ { "pxi-6052e", STATUS_UNKNOWN, NULL, ni_setup_observables, -1, -1 },
+ { "pxi-6070e", STATUS_UNKNOWN, NULL, ni_setup_observables, -1, -1 },
+ { "pxi-6071e", STATUS_GUESS, cal_ni_pxi_6071e, ni_setup_observables, -1, -1 },
+ { "pci-6711", STATUS_DONE, cal_ni_pci_6711, ni67xx_setup_observables, 0x1d4, 0x1d5},
+ { "pci-6713", STATUS_GUESS, cal_ni_pci_6711, ni67xx_setup_observables, -1, -1},
+ { "pci-6731", STATUS_GUESS, cal_ni_pci_6711, ni67xx_setup_observables, -1, -1},
+ { "pci-6733", STATUS_GUESS, cal_ni_pci_6711, ni67xx_setup_observables, -1, -1},
+ { "pxi-6711", STATUS_GUESS, cal_ni_pci_6711, ni67xx_setup_observables, -1, -1},
+ { "pxi-6713", STATUS_GUESS, cal_ni_pci_6711, ni67xx_setup_observables, -1, -1},
+ { "pxi-6731", STATUS_GUESS, cal_ni_pci_6711, ni67xx_setup_observables, -1, -1},
+ { "pxi-6733", STATUS_GUESS, cal_ni_pci_6711, ni67xx_setup_observables, -1, -1},
#if 0
-// { "at-mio-16de-10", cal_ni_unknown },
{ "at-mio-64e-3", cal_ni_16e_1 },
-// { "at-mio-16xe-50", cal_ni_unknown },
-// { "at-mio-16xe-10", cal_ni_unknown },
-// { "at-ai-16xe-10", cal_ni_unknown },
-// { "pxi-6030e", cal_ni_unknown },
-// { "pxi-6040e", cal_ni_unknown },
-// { "pci-6031e", cal_ni_unknown },
-// { "pci-6033e", cal_ni_unknown },
- { "pxi-6025e", cal_ni_6023e }, // guess
- { "pci-6034e", cal_ni_6023e }, // guess
-// { "pci-6110e", cal_ni_unknown },
-// { "pci-6111e", cal_ni_unknown },
-// { "pci-6711", cal_ni_unknown },
-// { "pci-6713", cal_ni_unknown },
-// { "pxi-6070e", cal_ni_unknown },
-// { "pxi-6052e", cal_ni_unknown },
-// { "DAQCard-ai-16e-4", cal_ni_unknown },
-// { "DAQCard-6062e", cal_ni_unknown },
-// { "DAQCard-6024e", cal_ni_unknown },
#endif
};
#define n_boards (sizeof(boards)/sizeof(boards[0]))
-enum {
+static const int ni_num_observables = 20;
+enum observables{
ni_zero_offset_low = 0,
ni_zero_offset_high,
ni_reference_low,
- ni_unip_offset_low,
+ ni_unip_zero_offset_low,
+ ni_unip_zero_offset_high,
+ ni_unip_reference_low,
ni_ao0_zero_offset,
ni_ao0_reference,
+ ni_ao0_linearity,
ni_ao1_zero_offset,
ni_ao1_reference,
+ ni_ao1_linearity,
+ ni_ao0_unip_zero_offset,
+ ni_ao0_unip_reference,
+ ni_ao0_unip_low_linearity,
+ ni_ao0_unip_mid_linearity,
+ ni_ao1_unip_zero_offset,
+ ni_ao1_unip_reference,
+ ni_ao1_unip_low_linearity,
+ ni_ao1_unip_mid_linearity,
};
+static inline unsigned int ni_ao_zero_offset( unsigned int channel )
+{
+ if( channel ) return ni_ao1_zero_offset;
+ else return ni_ao0_zero_offset;
+}
+static inline unsigned int ni_ao_reference( unsigned int channel )
+{
+ if( channel ) return ni_ao1_reference;
+ else return ni_ao0_reference;
+}
+static inline unsigned int ni_ao_mid_linearity( unsigned int channel )
+{
+ if( channel ) return ni_ao1_linearity;
+ else return ni_ao0_linearity;
+}
+static inline unsigned int ni_ao_unip_zero_offset( unsigned int channel )
+{
+ if( channel ) return ni_ao1_unip_zero_offset;
+ else return ni_ao0_unip_zero_offset;
+}
+static inline unsigned int ni_ao_unip_reference( unsigned int channel )
+{
+ if( channel ) return ni_ao1_unip_reference;
+ else return ni_ao0_unip_reference;
+}
+static inline unsigned int ni_ao_unip_low_linearity( unsigned int channel )
+{
+ if( channel ) return ni_ao1_unip_low_linearity;
+ else return ni_ao0_unip_low_linearity;
+}
+static inline unsigned int ni_ao_unip_mid_linearity( unsigned int channel )
+{
+ if( channel ) return ni_ao1_unip_mid_linearity;
+ else return ni_ao0_unip_mid_linearity;
+}
+
+static const int num_ao_observables_611x = 4;
+static int ni_ao_zero_offset_611x( const calibration_setup_t *setup,
+ unsigned int channel, unsigned int range ) {
+ assert( range == 0 );
+ return 2 * channel;
+};
+static int ni_ao_reference_611x( const calibration_setup_t *setup,
+ unsigned int channel, unsigned int range ) {
+ assert( range == 0 );
+ return 2 * channel + 1;
+};
+static int ni_zero_offset_611x( const calibration_setup_t *setup,
+ unsigned int channel, unsigned int range ) {
+ return num_ao_observables_611x + 8 * range + 2 * channel;
+};
+static int ni_reference_611x( const calibration_setup_t *setup,
+ unsigned int channel, unsigned int range ) {
+ return num_ao_observables_611x + 8 * range + 2 * channel + 1;
+};
+
+enum reference_sources {
+ REF_GND_GND = 0,
+ REF_AOGND_AIGND = 1,
+ REF_DAC0_GND = 2,
+ REF_DAC1_GND = 3,
+ REF_CALSRC_CALSRC = 4,
+ REF_CALSRC_GND = 5,
+ REF_DAC0_CALSRC = 6,
+ REF_DAC1_CALSRC = 7,
+};
+static inline unsigned int REF_DAC_GND( unsigned int channel )
+{
+ if( channel ) return REF_DAC1_GND;
+ else return REF_DAC0_GND;
+}
+static inline unsigned int REF_DAC_CALSRC( unsigned int channel )
+{
+ if( channel ) return REF_DAC1_CALSRC;
+ else return REF_DAC0_CALSRC;
+}
+
+static struct board_struct* ni_board( calibration_setup_t *setup )
+{
+ return setup->private_data;
+}
+
+typedef struct
+{
+ int adc_pregain_offset;
+ int adc_postgain_offset;
+ int adc_gain;
+ int adc_pregain_offset_fine;
+ int adc_postgain_offset_fine;
+ int adc_gain_fine;
+ int adc_unip_offset;
+ int adc_unip_offset_fine;
+ int dac_offset[ 2 ];
+ int dac_offset_fine[ 2 ];
+ int dac_gain[ 2 ];
+ int dac_gain_fine[ 2 ];
+ int dac_linearity[ 2 ];
+} ni_caldac_layout_t;
+
+static int cal_ni_generic( calibration_setup_t *setup,
+ const ni_caldac_layout_t *layout );
+
+static inline void init_ni_caldac_layout( ni_caldac_layout_t *layout )
+{
+ int i;
+
+ layout->adc_pregain_offset = -1;
+ layout->adc_postgain_offset = -1;
+ layout->adc_gain = -1;
+ layout->adc_unip_offset = -1;
+ layout->adc_unip_offset_fine = -1;
+ layout->adc_pregain_offset_fine = -1;
+ layout->adc_postgain_offset_fine = -1;
+ layout->adc_gain_fine = -1;
+ for( i = 0; i < 2; i++ )
+ {
+ layout->dac_offset[ i ] = -1;
+ layout->dac_offset_fine[ i ] = -1;
+ layout->dac_gain[ i ] = -1;
+ layout->dac_gain_fine[ i ] = -1;
+ layout->dac_linearity[ i ] = -1;
+ }
+}
int ni_setup( calibration_setup_t *setup , const char *device_name )
{
- ni_setup_board( setup, device_name );
- ni_setup_observables( setup );
+ int retval;
+
+ retval = ni_setup_board( setup, device_name );
+ if( retval < 0 ) return retval;
setup_caldacs( setup, setup->caldac_subdev );
return 0;
}
-int ni_setup_board( calibration_setup_t *setup, const char *device_name )
+static int ni_setup_board( calibration_setup_t *setup, const char *device_name )
{
int i;
if(!strcmp( device_name, boards[i].name )){
setup->status = boards[i].status;
setup->do_cal = boards[i].cal;
+ setup->private_data = &boards[ i ];
+ boards[i].setup_observables( setup );
break;
}
}
+ if( i == n_boards ) return -1;
return 0;
}
-void ni_setup_observables( calibration_setup_t *setup )
+static void ni_setup_ao_observables( calibration_setup_t *setup )
+{
+ observable *o;
+ comedi_insn tmpl, po_tmpl;
+ unsigned int channel;
+ int ai_bipolar_lowgain;
+ int ao_bipolar_lowgain;
+ int ao_unipolar_lowgain;
+
+ ai_bipolar_lowgain = get_bipolar_lowgain( setup->dev, setup->ad_subdev);
+ assert(ai_bipolar_lowgain >= 0);
+ ao_bipolar_lowgain = get_bipolar_lowgain( setup->dev, setup->da_subdev);
+ assert(ao_bipolar_lowgain >= 0);
+ ao_unipolar_lowgain = get_unipolar_lowgain( setup->dev, setup->da_subdev);
+
+ memset(&tmpl,0,sizeof(tmpl));
+ tmpl.insn = INSN_READ;
+ tmpl.n = 1;
+ tmpl.subdev = setup->ad_subdev;
+
+ memset(&po_tmpl, 0, sizeof(po_tmpl));
+ po_tmpl.insn = INSN_WRITE;
+ po_tmpl.n = 1;
+ po_tmpl.subdev = setup->da_subdev;
+
+ for( channel = 0; channel < 2; channel++ )
+ {
+ /* ao zero offset */
+ o = setup->observables + ni_ao_zero_offset( channel );
+ assert( o->name == NULL );
+ asprintf( &o->name, "ao %i, zero offset, low gain", channel );
+ o->preobserve_insn = po_tmpl;
+ o->preobserve_insn.chanspec = CR_PACK(channel,ao_bipolar_lowgain,0);
+ o->preobserve_insn.data = o->preobserve_data;
+ o->observe_insn = tmpl;
+ o->observe_insn.chanspec =
+ CR_PACK(REF_DAC_GND( channel ),ai_bipolar_lowgain,AREF_OTHER)
+ | CR_ALT_SOURCE | CR_ALT_FILTER;
+ o->reference_source = REF_DAC_GND( channel );
+ set_target( setup, ni_ao_zero_offset( channel ),0.0);
+
+ /* ao gain */
+ o = setup->observables + ni_ao_reference( channel );
+ assert( o->name == NULL );
+ asprintf( &o->name, "ao %i, reference voltage, low gain", channel );
+ o->preobserve_insn = po_tmpl;
+ o->preobserve_insn.chanspec = CR_PACK(channel,ao_bipolar_lowgain,0);
+ o->preobserve_insn.data = o->preobserve_data;
+ o->observe_insn = tmpl;
+ o->observe_insn.chanspec =
+ CR_PACK(REF_DAC_GND( channel ),ai_bipolar_lowgain,AREF_OTHER)
+ | CR_ALT_SOURCE | CR_ALT_FILTER;
+ o->reference_source = REF_DAC_GND( channel );
+ set_target( setup, ni_ao_reference( channel ),8.0);
+
+ /* ao linearity, mid */
+ o = setup->observables + ni_ao_mid_linearity( channel );
+ assert( o->name == NULL );
+ asprintf( &o->name, "ao %i, linearity (mid), low gain", channel );
+ o->preobserve_insn = po_tmpl;
+ o->preobserve_insn.chanspec = CR_PACK(channel,ao_bipolar_lowgain,0);
+ o->preobserve_insn.data = o->preobserve_data;
+ o->observe_insn = tmpl;
+ o->observe_insn.chanspec =
+ CR_PACK(REF_DAC_GND( channel ),ai_bipolar_lowgain,AREF_OTHER)
+ | CR_ALT_SOURCE | CR_ALT_FILTER;
+ o->reference_source = REF_DAC_GND( channel );
+ set_target( setup, ni_ao_mid_linearity( channel ),4.0);
+
+ if( ao_unipolar_lowgain >= 0 )
+ {
+ /* ao unipolar zero offset */
+ o = setup->observables + ni_ao_unip_zero_offset( channel );
+ assert( o->name == NULL );
+ asprintf( &o->name, "ao %i, unipolar zero offset, low gain", channel );
+ o->preobserve_insn = po_tmpl;
+ o->preobserve_insn.chanspec = CR_PACK(channel,ao_unipolar_lowgain,0);
+ o->preobserve_insn.data = o->preobserve_data;
+ o->observe_insn = tmpl;
+ o->observe_insn.chanspec =
+ CR_PACK(REF_DAC_GND( channel ),ai_bipolar_lowgain,AREF_OTHER)
+ | CR_ALT_SOURCE | CR_ALT_FILTER;
+ o->reference_source = REF_DAC_GND( channel );
+ set_target( setup, ni_ao_unip_zero_offset( channel ),0.0);
+
+ /* ao unipolar gain */
+ o = setup->observables + ni_ao_unip_reference( channel );
+ assert( o->name == NULL );
+ asprintf( &o->name, "ao %i, unipolar high, low gain", channel );
+ o->preobserve_insn = po_tmpl;
+ o->preobserve_insn.chanspec = CR_PACK(channel,ao_unipolar_lowgain,0);
+ o->preobserve_insn.data = o->preobserve_data;
+ o->observe_insn = tmpl;
+ o->observe_insn.chanspec =
+ CR_PACK(REF_DAC_GND( channel ),ai_bipolar_lowgain,AREF_OTHER)
+ | CR_ALT_SOURCE | CR_ALT_FILTER;
+ o->reference_source = REF_DAC_GND( channel );
+ set_target( setup, ni_ao_unip_reference( channel ), 9.0);
+
+ /* ao unipolar linearity, mid */
+ o = setup->observables + ni_ao_unip_mid_linearity( channel );
+ assert( o->name == NULL );
+ asprintf( &o->name, "ao %i, unipolar linearity (mid), low gain", channel );
+ o->preobserve_insn = po_tmpl;
+ o->preobserve_insn.chanspec = CR_PACK(channel,ao_unipolar_lowgain,0);
+ o->preobserve_insn.data = o->preobserve_data;
+ o->observe_insn = tmpl;
+ o->observe_insn.chanspec =
+ CR_PACK(REF_DAC_GND( channel ),ai_bipolar_lowgain,AREF_OTHER)
+ | CR_ALT_SOURCE | CR_ALT_FILTER;
+ o->reference_source = REF_DAC_GND( channel );
+ set_target( setup, ni_ao_unip_mid_linearity( channel ), 5.0);
+
+ /* ao unipolar linearity, low */
+ o = setup->observables + ni_ao_unip_low_linearity( channel );
+ assert( o->name == NULL );
+ asprintf( &o->name, "ao %i, unipolar linearity (low), low gain", channel );
+ o->preobserve_insn = po_tmpl;
+ o->preobserve_insn.chanspec = CR_PACK(channel,ao_unipolar_lowgain,0);
+ o->preobserve_insn.data = o->preobserve_data;
+ o->observe_insn = tmpl;
+ o->observe_insn.chanspec =
+ CR_PACK(REF_DAC_GND( channel ),ai_bipolar_lowgain,AREF_OTHER)
+ | CR_ALT_SOURCE | CR_ALT_FILTER;
+ o->reference_source = REF_DAC_GND( channel );
+ set_target( setup, ni_ao_unip_low_linearity( channel ), 1.0);
+ }
+ }
+}
+
+static void ni_setup_observables( calibration_setup_t *setup )
{
comedi_insn tmpl;
- comedi_insn po_tmpl2;
int bipolar_lowgain;
int bipolar_highgain;
int unipolar_lowgain;
+ int unipolar_highgain;
double voltage_reference;
observable *o;
bipolar_lowgain = get_bipolar_lowgain( setup->dev, setup->ad_subdev);
bipolar_highgain = get_bipolar_highgain( setup->dev, setup->ad_subdev);
unipolar_lowgain = get_unipolar_lowgain( setup->dev, setup->ad_subdev);
-
- voltage_reference = 5.000;
+ unipolar_highgain = get_unipolar_highgain( setup->dev, setup->ad_subdev);
+
+ if( ni_board( setup )->ref_eeprom_lsb >= 0 &&
+ ni_board( setup )->ref_eeprom_msb >= 0 )
+ {
+ voltage_reference = ni_get_reference( setup,
+ ni_board( setup )->ref_eeprom_lsb, ni_board( setup )->ref_eeprom_msb );
+ }else
+ {
+ DPRINT( 0, "WARNING: unknown eeprom address for reference voltage\n"
+ "correction. This might be fixable if you send us an eeprom dump\n"
+ "(see the demo/eeprom_dump program).\n");
+ voltage_reference = 5.0;
+ }
memset(&tmpl,0,sizeof(tmpl));
tmpl.insn = INSN_READ;
tmpl.n = 1;
tmpl.subdev = setup->ad_subdev;
- memset(&po_tmpl2,0,sizeof(tmpl));
- po_tmpl2.insn = INSN_CONFIG;
- po_tmpl2.n = 2;
- po_tmpl2.subdev = setup->ad_subdev;
+ setup->n_observables = ni_num_observables;
/* 0 offset, low gain */
o = setup->observables + ni_zero_offset_low;
o->name = "ai, bipolar zero offset, low gain";
-#if 0
- o->preobserve_insn = po_tmpl2;
- o->preobserve_insn.data = o->preobserve_data;
- o->preobserve_insn.data[0] = INSN_CONFIG_ALT_SOURCE;
- o->preobserve_insn.data[1] = CR_PACK(0,0,0);
o->observe_insn = tmpl;
- o->observe_insn.chanspec = CR_ALT_SOURCE;
+ o->observe_insn.chanspec = CR_PACK(REF_GND_GND,bipolar_lowgain,AREF_OTHER)
+ | CR_ALT_SOURCE | CR_ALT_FILTER;
+ o->reference_source = REF_GND_GND;
o->target = 0;
-#else
- o->observe_insn = tmpl;
- o->observe_insn.chanspec = CR_PACK(0,bipolar_lowgain,AREF_OTHER);
- o->target = 0;
-#endif
/* 0 offset, high gain */
o = setup->observables + ni_zero_offset_high;
o->name = "ai, bipolar zero offset, high gain";
o->observe_insn = tmpl;
- o->observe_insn.chanspec = CR_PACK(0,bipolar_highgain,AREF_OTHER);
+ o->observe_insn.chanspec = CR_PACK(REF_GND_GND,bipolar_highgain,AREF_OTHER)
+ | CR_ALT_SOURCE | CR_ALT_FILTER;
+ o->reference_source = REF_GND_GND;
o->target = 0;
/* voltage reference */
o = setup->observables + ni_reference_low;
o->name = "ai, bipolar voltage reference, low gain";
o->observe_insn = tmpl;
- o->observe_insn.chanspec = CR_PACK(5,bipolar_lowgain,AREF_OTHER);
+ o->observe_insn.chanspec = CR_PACK(REF_CALSRC_GND,bipolar_lowgain,AREF_OTHER)
+ | CR_ALT_SOURCE | CR_ALT_FILTER;
+ o->reference_source = REF_CALSRC_GND;
o->target = voltage_reference;
- setup->n_observables = ni_reference_low + 1;
-
if(unipolar_lowgain>=0){
- /* unip/bip offset */
- o = setup->observables + ni_unip_offset_low;
+ o = setup->observables + ni_unip_zero_offset_low;
o->name = "ai, unipolar zero offset, low gain";
o->observe_insn = tmpl;
o->observe_insn.chanspec =
- CR_PACK(0,unipolar_lowgain,AREF_OTHER);
- o->target = 0;
+ CR_PACK(REF_GND_GND,unipolar_lowgain,AREF_OTHER)
+ | CR_ALT_SOURCE | CR_ALT_FILTER;
+ o->reference_source = REF_GND_GND;
+ o->target = very_low_target( setup->dev, setup->ad_subdev, 0, unipolar_lowgain );
-#if 0
- /* unip gain */
- o = observables + ni_unip_reference_low;
+ o = setup->observables + ni_unip_reference_low;
o->name = "ai, unipolar voltage reference, low gain";
o->observe_insn = tmpl;
o->observe_insn.chanspec =
- CR_PACK(5,unipolar_lowgain,AREF_OTHER);
+ CR_PACK(REF_CALSRC_GND,unipolar_lowgain,AREF_OTHER)
+ | CR_ALT_SOURCE | CR_ALT_FILTER;
+ o->reference_source = REF_CALSRC_GND;
o->target = voltage_reference;
- i++;
-#endif
- setup->n_observables = ni_unip_offset_low + 1;
}
- if(setup->da_subdev>=0){
- comedi_insn po_tmpl;
-
- memset(&po_tmpl,0,sizeof(po_tmpl));
- po_tmpl.insn = INSN_WRITE;
- po_tmpl.n = 1;
- po_tmpl.subdev = setup->da_subdev;
-
- /* ao 0, zero offset */
- o = setup->observables + ni_ao0_zero_offset;
- o->name = "ao 0, zero offset, low gain";
- o->preobserve_insn = po_tmpl;
- o->preobserve_insn.chanspec = CR_PACK(0,0,0);
- o->preobserve_insn.data = o->preobserve_data;
+ if(unipolar_highgain >= 0)
+ {
+ o = setup->observables + ni_unip_zero_offset_high;
+ o->name = "ai, unipolar zero offset, high gain";
o->observe_insn = tmpl;
o->observe_insn.chanspec =
- CR_PACK(2,bipolar_lowgain,AREF_OTHER);
- set_target( setup, ni_ao0_zero_offset,0.0);
+ CR_PACK(REF_GND_GND,unipolar_highgain,AREF_OTHER)
+ | CR_ALT_SOURCE | CR_ALT_FILTER;
+ o->reference_source = REF_GND_GND;
+ o->target = very_low_target( setup->dev, setup->ad_subdev, 0, unipolar_highgain );
+ }
- /* ao 0, gain */
- o = setup->observables + ni_ao0_reference;
- o->name = "ao 0, reference voltage, low gain";
- o->preobserve_insn = po_tmpl;
- o->preobserve_insn.chanspec = CR_PACK(0,0,0);
- o->preobserve_insn.data = o->preobserve_data;
- o->observe_insn = tmpl;
- o->observe_insn.chanspec =
- CR_PACK(6,bipolar_lowgain,AREF_OTHER);
- set_target( setup, ni_ao0_reference,5.0);
- o->target -= voltage_reference;
-
- /* ao 1, zero offset */
- o = setup->observables + ni_ao1_zero_offset;
- o->name = "ao 1, zero offset, low gain";
+ if(setup->da_subdev >= 0)
+ ni_setup_ao_observables( setup );
+}
+
+/* for +-50V and +-20V ranges, the reference source goes 0V
+ * to 50V instead of 0V to 5V */
+static unsigned int cal_gain_register_bits_611x( double reference, double *voltage )
+{
+ int bits;
+
+ bits = 200.0 * ( *voltage / reference );
+ if( bits > 200 ) bits = 200;
+ if( bits < 0 ) bits = 0;
+
+ *voltage = reference * ( bits / 200.0 );
+ return bits;
+}
+
+static unsigned int ref_source_611x( unsigned int ref_source, unsigned int cal_gain_bits )
+{
+ return ( ref_source & 0xf ) | ( ( cal_gain_bits << 4 ) & 0xff0 );
+}
+
+static void reference_target_611x( calibration_setup_t *setup,
+ observable *o, double master_reference, unsigned int range )
+{
+ int cal_gain_reg_bits;
+ double reference;
+ double target;
+ comedi_range *range_ptr;
+
+ range_ptr = comedi_get_range( setup->dev, setup->ad_subdev, 0, range );
+ assert( range_ptr != NULL );
+ if( range_ptr->max > 19.0 ) reference = 10 * master_reference;
+ else reference = master_reference;
+ target = range_ptr->max * 0.8;
+
+ cal_gain_reg_bits = cal_gain_register_bits_611x( reference, &target );
+
+ o->reference_source = ref_source_611x( REF_CALSRC_GND, cal_gain_reg_bits );
+ o->target = target;
+}
+
+static void ni_setup_observables_611x( calibration_setup_t *setup )
+{
+ comedi_insn tmpl;
+ comedi_insn po_tmpl;
+ int range, channel;
+ double master_reference;
+ observable *o;
+ int num_ai_channels, num_ai_ranges;
+ static const int num_ao_channels = 2;
+
+ setup->sv_settling_time_ns = 10000000;
+ setup->sv_order = 14;
+
+ master_reference = ni_get_reference( setup,
+ ni_board( setup )->ref_eeprom_lsb, ni_board( setup )->ref_eeprom_msb );
+
+ memset(&tmpl,0,sizeof(tmpl));
+ tmpl.insn = INSN_READ;
+ tmpl.n = 1;
+ tmpl.subdev = setup->ad_subdev;
+
+ num_ai_channels = comedi_get_n_channels( setup->dev, setup->ad_subdev );
+ assert( num_ai_channels >= 0 );
+ num_ai_ranges = comedi_get_n_ranges( setup->dev, setup->ad_subdev, 0 );
+ assert( num_ai_ranges >= 0 );
+
+ for( channel = 0; channel < num_ai_channels; channel++ )
+ {
+ for( range = 0; range < num_ai_ranges; range++ )
+ {
+ /* 0 offset */
+ o = setup->observables + ni_zero_offset_611x( setup, channel, range );
+ assert( o->name == NULL );
+ asprintf( &o->name, "ai, ch %i, range %i, zero offset",
+ channel, range );
+ o->observe_insn = tmpl;
+ o->observe_insn.chanspec = CR_PACK( channel, range, AREF_DIFF )
+ | CR_ALT_SOURCE | CR_ALT_FILTER;
+ o->reference_source = REF_GND_GND;
+ o->target = 0.0;
+
+ /* voltage reference */
+ o = setup->observables + ni_reference_611x( setup, channel, range );
+ assert( o->name == NULL );
+ asprintf( &o->name, "ai, ch %i, range %i, voltage reference",
+ channel, range );
+ o->observe_insn = tmpl;
+ o->observe_insn.chanspec = CR_PACK( channel, range, AREF_DIFF )
+ | CR_ALT_SOURCE | CR_ALT_FILTER;
+ reference_target_611x( setup, o, master_reference, range );
+ }
+ }
+
+ memset(&po_tmpl,0,sizeof(po_tmpl));
+ po_tmpl.insn = INSN_WRITE;
+ po_tmpl.n = 1;
+ po_tmpl.subdev = setup->da_subdev;
+
+ for( channel = 0; channel < num_ao_channels; channel ++ )
+ {
+ static const int ai_range_for_ao = 2;
+
+ /* ao zero offset */
+ o = setup->observables + ni_ao_zero_offset_611x( setup, channel, 0 );
+ assert( o->name == NULL );
+ asprintf( &o->name, "ao ch %i, zero offset", channel );
o->preobserve_insn = po_tmpl;
- o->preobserve_insn.chanspec = CR_PACK(1,0,0);
+ o->preobserve_insn.chanspec = CR_PACK( channel, 0, AREF_GROUND );
o->preobserve_insn.data = o->preobserve_data;
o->observe_insn = tmpl;
- o->observe_insn.chanspec =
- CR_PACK(3,bipolar_lowgain,AREF_OTHER);
- set_target( setup, ni_ao1_zero_offset,0.0);
-
- /* ao 1, gain */
- o = setup->observables + ni_ao1_reference;
- o->name = "ao 1, reference voltage, low gain";
+ o->observe_insn.chanspec = CR_PACK( 0, ai_range_for_ao, AREF_DIFF )
+ | CR_ALT_SOURCE | CR_ALT_FILTER;
+ o->reference_source = REF_DAC_GND( channel );
+ set_target( setup, ni_ao_zero_offset_611x( setup, channel, 0 ), 0.0 );
+
+ /* ao gain */
+ o = setup->observables + ni_ao_reference_611x( setup, channel, 0 );
+ assert( o->name == NULL );
+ asprintf( &o->name, "ao ch %i, reference voltage", channel );
o->preobserve_insn = po_tmpl;
- o->preobserve_insn.chanspec = CR_PACK(1,0,0);
+ o->preobserve_insn.chanspec = CR_PACK( channel, 0, AREF_GROUND );
o->preobserve_insn.data = o->preobserve_data;
o->observe_insn = tmpl;
- o->observe_insn.chanspec =
- CR_PACK(7,bipolar_lowgain,AREF_OTHER);
- set_target( setup, ni_ao1_reference,5.0);
- o->target -= voltage_reference;
-
- setup->n_observables = ni_ao1_reference + 1;
+ o->observe_insn.chanspec = CR_PACK( 0, ai_range_for_ao, AREF_DIFF )
+ | CR_ALT_SOURCE | CR_ALT_FILTER;
+ o->reference_source = REF_DAC_GND( channel );
+ set_target( setup, ni_ao_reference_611x( setup, channel, 0 ), 5.0 );
}
+
+ setup->n_observables = num_ao_observables_611x + 2 * num_ai_ranges * num_ai_channels;
}
-int cal_ni_at_mio_16e_2(calibration_setup_t *setup)
+static int cal_ni_daqcard_ai_16xe_50(calibration_setup_t *setup)
{
- postgain_cal( setup, ni_zero_offset_low,ni_zero_offset_high,1);
- cal1( setup, ni_zero_offset_high,0);
- cal1( setup, ni_reference_low,3);
- cal1( setup, ni_unip_offset_low,2);
- if(do_output){
- cal1( setup, ni_ao0_zero_offset,5);
- cal1( setup, ni_ao0_reference,6);
- cal1( setup, ni_ao1_zero_offset,8);
- cal1( setup, ni_ao1_reference,9);
- }
- return 0;
+ ni_caldac_layout_t layout;
+
+ init_ni_caldac_layout( &layout );
+ layout.adc_pregain_offset = 8;
+ layout.adc_postgain_offset = 2;
+ layout.adc_gain = 0;
+ layout.adc_gain_fine = 1;
+
+ return cal_ni_generic( setup, &layout );
}
-/*
- * Device name: DAQCard-ai-16xe-50
- * Comedi version: 0.7.60
- * ai, bipolar zero offset, low gain
- * offset 5.87(63)e-3, target 0
- * caldac[0] gain=-2.243(21)e-6 V/bit S_min=208.079 dof=254
- * caldac[2] gain=1.56378(22)e-4 V/bit S_min=1782.91 dof=254
- * caldac[8] gain=2.499(14)e-7 V/bit S_min=234.915 dof=254
- * ai, bipolar zero offset, high gain
- * offset 4.251(49)e-5, target 0
- * caldac[0] gain=-2.396(30)e-8 V/bit S_min=231.387 dof=254
- * caldac[2] gain=1.56428(28)e-6 V/bit S_min=829.096 dof=254
- * caldac[8] gain=2.61244(18)e-7 V/bit S_min=773.092 dof=254
- * ai, bipolar voltage reference, low gain
- * offset 4.99650(81), target 5
- * caldac[0] gain=-3.78250(23)e-4 V/bit S_min=12207.6 dof=254
- * caldac[1] gain=-9.878(22)e-6 V/bit S_min=346.795 dof=254
- * caldac[2] gain=1.57172(23)e-4 V/bit S_min=969.526 dof=254
- * caldac[8] gain=2.795(14)e-7 V/bit S_min=245.703 dof=254
- * ai, unipolar zero offset, low gain
- * offset 0.0133(14), target 0
- * caldac[0] gain=3.73923(29)e-4 V/bit S_min=2855.79 dof=151
- * caldac[1] gain=9.784(11)e-6 V/bit S_min=727.295 dof=254
- * caldac[2] gain=7.8670(11)e-5 V/bit S_min=903.291 dof=254
- * caldac[8] gain=2.7732(74)e-7 V/bit S_min=415.399 dof=254
- */
-int cal_ni_daqcard_ai_16xe_50(calibration_setup_t *setup)
+static int cal_ni_at_mio_16xe_50(calibration_setup_t *setup)
{
- postgain_cal( setup, ni_zero_offset_low,ni_zero_offset_high,2);
- cal1( setup, ni_zero_offset_high,8);
- cal1( setup, ni_reference_low,0);
- cal1_fine( setup, ni_reference_low,0);
- cal1( setup, ni_reference_low,1);
- return 0;
+ ni_caldac_layout_t layout;
+
+ init_ni_caldac_layout( &layout );
+ layout.adc_pregain_offset = 8;
+ layout.adc_postgain_offset = 2;
+ layout.adc_gain = 0;
+ layout.adc_gain_fine = 1;
+ layout.dac_offset[ 0 ] = 6;
+ layout.dac_gain[ 0 ] = 4;
+ layout.dac_offset[ 1 ] = 7;
+ layout.dac_gain[ 1 ] = 5;
+
+ return cal_ni_generic( setup, &layout );
}
-int cal_ni_at_mio_16xe_50(calibration_setup_t *setup)
+static int cal_ni_pci_mio_16xe_10(calibration_setup_t *setup)
{
- postgain_cal( setup, ni_zero_offset_low,ni_zero_offset_high,2);
- cal1( setup, ni_zero_offset_high,8);
- cal1( setup, ni_reference_low,0);
- cal1_fine( setup, ni_reference_low,0);
- cal1( setup, ni_reference_low,1);
-
- if(do_output){
- cal1( setup, ni_ao0_zero_offset,6);
- cal1( setup, ni_ao0_reference,4);
- cal1( setup, ni_ao1_zero_offset,7);
- cal1( setup, ni_ao1_reference,5);
- }
- return 0;
+ ni_caldac_layout_t layout;
+
+ init_ni_caldac_layout( &layout );
+ layout.adc_pregain_offset = 8;
+ layout.adc_postgain_offset = 2;
+ layout.adc_postgain_offset_fine = 3;
+ layout.adc_gain = 0;
+ layout.adc_gain_fine = 1;
+ layout.dac_offset[ 0 ] = 6;
+ layout.dac_gain[ 0 ] = 4;
+ layout.dac_offset[ 1 ] = 7;
+ layout.dac_gain[ 1 ] = 5;
+
+ return cal_ni_generic( setup, &layout );
}
-int cal_ni_pci_mio_16xe_10(calibration_setup_t *setup)
+static int cal_ni_at_mio_16e_1(calibration_setup_t *setup)
{
- postgain_cal( setup, ni_zero_offset_low, ni_zero_offset_high, 2);
- postgain_cal( setup, ni_zero_offset_low, ni_zero_offset_high, 3);
- cal1( setup, ni_zero_offset_high, 8);
- cal1( setup, ni_reference_low, 0);
- cal1( setup, ni_reference_low, 1);
-
- if(do_output){
- cal1( setup, ni_ao0_zero_offset,6);
- cal1( setup, ni_ao0_reference,4);
- cal1( setup, ni_ao1_zero_offset,7);
- cal1( setup, ni_ao1_reference,5);
- }
- return 0;
+ ni_caldac_layout_t layout;
+
+ init_ni_caldac_layout( &layout );
+ layout.adc_pregain_offset = 0;
+ layout.adc_postgain_offset = 1;
+ layout.adc_gain = 3;
+ layout.adc_unip_offset = 2;
+ layout.dac_offset[0] = 5;
+ layout.dac_gain[0] = 6;
+ layout.dac_linearity[0] = 4;
+ layout.dac_offset[1] = 8;
+ layout.dac_gain[1] = 9;
+ layout.dac_linearity[1] = 7;
+
+ return cal_ni_generic( setup, &layout );
}
-int cal_ni_at_mio_16e_1(calibration_setup_t *setup)
+static int cal_ni_at_mio_16e_2(calibration_setup_t *setup)
{
- return cal_ni_at_mio_16e_2( setup );
+ return cal_ni_at_mio_16e_1(setup);
}
-int cal_ni_pci_mio_16e_1(calibration_setup_t *setup)
+static int cal_ni_pci_mio_16e_1(calibration_setup_t *setup)
{
- //cal_ni_at_mio_16e_2();
-
- postgain_cal( setup, ni_zero_offset_low,ni_zero_offset_high,1);
- cal1( setup, ni_zero_offset_high,0);
- cal1( setup, ni_reference_low,3);
- cal1( setup, ni_unip_offset_low,2);
- if(do_output){
- cal1( setup, ni_ao0_zero_offset,5);
- //cal1( setup, ni_ao0_zero_offset,4); /* linearity? */
- cal1( setup, ni_ao0_reference,6);
- cal1( setup, ni_ao1_zero_offset,8);
- //cal1( setup, ni_ao1_zero_offset,7); /* linearity? */
- cal1( setup, ni_ao1_reference,9);
- }
- return 0;
+ ni_caldac_layout_t layout;
+
+ init_ni_caldac_layout( &layout );
+ layout.adc_pregain_offset = 0;
+ layout.adc_postgain_offset = 1;
+ layout.adc_unip_offset = 2;
+ layout.adc_gain = 3;
+ layout.dac_offset[ 0 ] = 5;
+ layout.dac_gain[ 0 ] = 6;
+ layout.dac_linearity[ 0 ] = 4;
+ layout.dac_offset[ 1 ] = 8;
+ layout.dac_gain[ 1 ] = 9;
+ layout.dac_linearity[ 1 ] = 7;
+
+ return cal_ni_generic( setup, &layout );
}
-int cal_ni_pci_6032e(calibration_setup_t *setup)
+static int cal_ni_pci_6014(calibration_setup_t *setup)
{
- postgain_cal(setup, ni_zero_offset_low, ni_zero_offset_high, 2);
- postgain_cal(setup, ni_zero_offset_low, ni_zero_offset_high, 3);
+ ni_caldac_layout_t layout;
+
+ init_ni_caldac_layout( &layout );
+ layout.adc_pregain_offset = 0;
+ layout.adc_postgain_offset = 4;
+ layout.adc_pregain_offset_fine = 8;
+ layout.adc_gain = 2;
+ layout.dac_offset[0] = 6;
+ layout.dac_offset_fine[0] = 10;
+ layout.dac_gain[0] = 7;
+ layout.dac_gain_fine[0] = 11;
+ layout.dac_offset[1] = 9;
+ layout.dac_offset_fine[1] = 1;
+ layout.dac_gain[1] = 3;
+ layout.dac_gain_fine[1] = 5;
+ return cal_ni_generic( setup, &layout );
+}
- cal1( setup, ni_zero_offset_high,8);
+static int cal_ni_pci_6032e(calibration_setup_t *setup)
+{
+ ni_caldac_layout_t layout;
- cal1( setup, ni_reference_low,0);
- cal1_fine( setup, ni_reference_low,0);
- cal1( setup, ni_reference_low,1);
+ init_ni_caldac_layout( &layout );
+ layout.adc_pregain_offset = 8;
+ layout.adc_postgain_offset = 2;
+ layout.adc_postgain_offset_fine = 3;
+ layout.adc_gain = 0;
+ layout.adc_gain_fine = 1;
- return 0;
+ return cal_ni_generic( setup, &layout );
}
-int cal_ni_pci_6035e(calibration_setup_t *setup)
+static int cal_ni_pci_6035e(calibration_setup_t *setup)
{
/* this is for the ad8804_debug caldac */
+ ni_caldac_layout_t layout;
+
+ init_ni_caldac_layout( &layout );
+ layout.adc_pregain_offset = 0;
+ layout.adc_pregain_offset_fine = 8;
+ layout.adc_postgain_offset = 4;
+ layout.adc_gain = 2;
+ layout.dac_offset[ 0 ] = 6;
+ layout.dac_gain[ 0 ] = 11;
+ layout.dac_linearity[ 0 ] = 10;
+ layout.dac_offset[ 1 ] = 9;
+ layout.dac_gain[ 1 ] = 5;
+ layout.dac_linearity[ 1 ] = 1;
+
+ return cal_ni_generic( setup, &layout );
+}
- postgain_cal( setup, ni_zero_offset_low,ni_zero_offset_high,4);
-
- cal1( setup, ni_zero_offset_high,0);
- cal1( setup, ni_zero_offset_high,8);
-
- cal1( setup, ni_reference_low,2);
+static int cal_ni_pci_6036e(calibration_setup_t *setup)
+{
+ ni_caldac_layout_t layout;
- if(do_output){
- cal1( setup, ni_ao0_zero_offset,6);
- //cal1( setup, ni_ao0_zero_offset,10); /* linearity? */
- cal1( setup, ni_ao0_reference,11);
- cal1( setup, ni_ao1_zero_offset,9);
- //cal1( setup, ni_ao1_zero_offset,1); /* linearity? */
- cal1( setup, ni_ao1_reference,5);
+ if( comedi_get_version_code( setup->dev ) <= COMEDI_VERSION_CODE( 0, 7, 66 ) )
+ {
+ DPRINT(0, "WARNING: you need comedi driver version 0.7.67 or later\n"
+ "for this calibration to work properly\n" );
}
- return 0;
+
+ /* this is for the ad8804_debug caldac */
+ init_ni_caldac_layout( &layout );
+ layout.adc_pregain_offset = 0;
+ layout.adc_postgain_offset = 4;
+ layout.adc_pregain_offset_fine = 8;
+ layout.adc_gain = 2;
+ layout.dac_offset[ 0 ] = 6;
+ layout.dac_gain[ 0 ] = 7;
+ layout.dac_gain_fine[ 0 ] = 11;
+ layout.dac_linearity[ 0 ] = 10;
+ layout.dac_offset[ 1 ] = 9;
+ layout.dac_gain[ 1 ] = 3;
+ layout.dac_gain_fine[ 1 ] = 5;
+ layout.dac_linearity[ 1 ] = 1;
+
+ return cal_ni_generic( setup, &layout );
}
-int cal_ni_pci_6071e(calibration_setup_t *setup)
+static int cal_ni_pci_6071e(calibration_setup_t *setup)
{
- postgain_cal( setup, ni_zero_offset_low,ni_zero_offset_high,1);
- cal1( setup, ni_zero_offset_high,0);
- cal1( setup, ni_reference_low,3);
- cal1_fine( setup, ni_reference_low,3);
- if(do_output){
- cal1( setup, ni_ao0_zero_offset,5);
- //cal1( setup, ni_ao0_zero_offset,4); /* linearity? */
- cal1( setup, ni_ao0_reference,6); /* guess. Doesn't show up correctly in dump */
- cal1( setup, ni_ao1_zero_offset,8);
- //cal1( setup, ni_ao1_zero_offset,7); /* linearity? */
- cal1( setup, ni_ao1_reference,9);
+ ni_caldac_layout_t layout;
+
+ if( comedi_get_version_code( setup->dev ) <= COMEDI_VERSION_CODE( 0, 7, 66 ) )
+ {
+ DPRINT(0, "WARNING: you need comedi driver version 0.7.67 or later\n"
+ "for this calibration to work properly\n" );
}
- return 0;
+
+ init_ni_caldac_layout( &layout );
+ layout.adc_pregain_offset = 8;
+ layout.adc_postgain_offset = 4;
+ layout.adc_unip_offset = 7;
+ layout.adc_gain = 2;
+ layout.dac_offset[ 0 ] = 6;
+ layout.dac_gain[ 0 ] = 11;
+ layout.dac_linearity[ 0 ] = 10;
+ layout.dac_offset[ 1 ] = 9;
+ layout.dac_gain[ 1 ] = 5;
+ layout.dac_linearity[ 1 ] = 1;
+ return cal_ni_generic( setup, &layout );
}
-int cal_ni_pxi_6071e(calibration_setup_t *setup)
+static int cal_ni_pxi_6071e(calibration_setup_t *setup)
{
- // 6071e (old)
- postgain_cal( setup, ni_zero_offset_low,ni_zero_offset_high,1);
- cal1( setup, ni_zero_offset_high,0);
- cal1( setup, ni_reference_low,3);
- if(do_output){
- // unknown
+ ni_caldac_layout_t layout;
+
+ if( comedi_get_version_code( setup->dev ) <= COMEDI_VERSION_CODE( 0, 7, 66 ) )
+ {
+ DPRINT(0, "WARNING: you need comedi driver version 0.7.67 or later\n"
+ "for this calibration to work properly\n" );
}
- return 0;
+
+ init_ni_caldac_layout( &layout );
+ layout.adc_pregain_offset = 0;
+ layout.adc_pregain_offset_fine = 8;
+ layout.adc_postgain_offset = 4;
+ layout.adc_gain = 2;
+ layout.dac_offset[ 0 ] = 6;
+ layout.dac_gain[ 0 ] = 11;
+ layout.dac_linearity[ 0 ] = 10;
+ layout.dac_offset[ 1 ] = 9;
+ layout.dac_gain[ 1 ] = 5;
+ layout.dac_linearity[ 1 ] = 1;
+ return cal_ni_generic( setup, &layout );
}
-int cal_ni_at_mio_16e_10(calibration_setup_t *setup)
+static int cal_ni_at_mio_16e_10(calibration_setup_t *setup)
{
- // 16e-10 (old)
- postgain_cal( setup, ni_zero_offset_low,ni_zero_offset_high,1);
- cal1( setup, ni_zero_offset_high,10);
- cal1( setup, ni_zero_offset_high,0);
- cal1( setup, ni_reference_low,3);
- cal1( setup, ni_unip_offset_low,2);
- if(do_output){
- cal1( setup, ni_ao0_zero_offset,5); // guess
- cal1( setup, ni_ao0_reference,6); // guess
- cal1( setup, ni_ao1_zero_offset,8); // guess
- cal1( setup, ni_ao1_reference,9); // guess
+ ni_caldac_layout_t layout;
+
+ if(comedi_get_version_code(setup->dev) <= COMEDI_VERSION_CODE(0, 7, 68))
+ {
+ DPRINT(0, "WARNING: you need comedi driver version 0.7.69 or later\n"
+ "for this calibration to work properly\n" );
}
- return 0;
+ init_ni_caldac_layout( &layout );
+ layout.adc_pregain_offset = 0;
+ layout.adc_pregain_offset_fine = 8;
+ layout.adc_postgain_offset = 4;
+ layout.adc_gain = 2;
+ layout.adc_unip_offset = 7;
+ layout.dac_offset[ 0 ] = 6;
+ layout.dac_gain[ 0 ] = 11;
+ layout.dac_linearity[ 0 ] = 10;
+ layout.dac_offset[ 1 ] = 9;
+ layout.dac_gain[ 1 ] = 5;
+ layout.dac_linearity[1] = 1;
+ return cal_ni_generic( setup, &layout );
}
-int cal_ni_pci_mio_16xe_50(calibration_setup_t *setup)
+static int cal_ni_pci_mio_16xe_50(calibration_setup_t *setup)
{
- postgain_cal( setup, ni_zero_offset_low,ni_zero_offset_high,2);
- cal1( setup, ni_zero_offset_high,8);
- cal1( setup, ni_reference_low,0);
- cal1_fine( setup, ni_reference_low,0);
- cal1( setup, ni_reference_low,1);
-
- if(do_output){
- cal1( setup, ni_ao0_zero_offset,6);
- cal1( setup, ni_ao0_reference,4);
- cal1( setup, ni_ao1_zero_offset,7);
- cal1( setup, ni_ao1_reference,5);
- }
- return 0;
+ ni_caldac_layout_t layout;
+
+ init_ni_caldac_layout( &layout );
+ layout.adc_pregain_offset = 8;
+ layout.adc_postgain_offset = 2;
+ layout.adc_gain = 0;
+ layout.adc_gain_fine = 1;
+ layout.adc_unip_offset = 7;
+ layout.dac_offset[ 0 ] = 6;
+ layout.dac_gain[ 0 ] = 4;
+ layout.dac_offset[ 1 ] = 7;
+ layout.dac_gain[ 1 ] = 5;
+
+ return cal_ni_generic( setup, &layout );
}
-int cal_ni_pci_6023e(calibration_setup_t *setup)
+static int cal_ni_pci_6023e(calibration_setup_t *setup)
{
- /* There seems to be a bug in the driver that doesn't allow
- * access to caldac 10, and possibly others. */
- postgain_cal( setup, ni_zero_offset_low,ni_zero_offset_high,1);
- //cal1( setup, ni_zero_offset_high,10);
- //cal1( setup, ni_zero_offset_high,0);
- cal1( setup, ni_reference_low,3);
- return 0;
+ /* for comedi-0.7.65 */
+ ni_caldac_layout_t layout;
+
+ init_ni_caldac_layout( &layout );
+ layout.adc_pregain_offset = 8; /* possibly wrong */
+ layout.adc_pregain_offset_fine = 0;
+ layout.adc_postgain_offset = 4;
+ layout.adc_gain = 2;
+
+ return cal_ni_generic( setup, &layout );
}
-int cal_ni_pci_6024e(calibration_setup_t *setup)
+static int cal_ni_pci_6024e(calibration_setup_t *setup)
{
- postgain_cal( setup, ni_zero_offset_low,ni_zero_offset_high,4);
- cal1( setup, ni_zero_offset_high,0);
- cal1( setup, ni_zero_offset_high,8);
- cal1( setup, ni_reference_low,2);
- if(do_output){
- cal1( setup, ni_ao0_zero_offset,6);
- //cal1( setup, ni_ao0_zero_offset,10); // nonlinearity?
- cal1( setup, ni_ao0_reference,11);
- cal1( setup, ni_ao1_zero_offset,9);
- //cal1( setup, ni_ao1_zero_offset,1); // nonlinearity?
- cal1( setup, ni_ao1_reference,5);
- }
- return 0;
+ ni_caldac_layout_t layout;
+
+ init_ni_caldac_layout( &layout );
+ layout.adc_pregain_offset = 0;
+ layout.adc_postgain_offset = 4;
+ layout.adc_pregain_offset_fine = 8;
+ layout.adc_gain = 2;
+ layout.dac_offset[ 0 ] = 6;
+ layout.dac_gain[ 0 ] = 11;
+ layout.dac_linearity[ 0 ] = 10;
+ layout.dac_offset[ 1 ] = 9;
+ layout.dac_gain[ 1 ] = 5;
+ layout.dac_linearity[ 1 ] = 1;
+
+ return cal_ni_generic( setup, &layout );
}
-int cal_ni_pci_6025e(calibration_setup_t *setup)
+static int cal_ni_pci_6025e(calibration_setup_t *setup)
{
- postgain_cal( setup, ni_zero_offset_low,ni_zero_offset_high,4); // was 1
- //cal1( setup, ni_zero_offset_high,XXX); // was 10
- cal1( setup, ni_zero_offset_high,8); // was 0
- cal1( setup, ni_reference_low,2); // was 3
- if(do_output){
- cal1( setup, ni_ao0_zero_offset,6); // was 5
- //cal1( setup, ni_ao0_zero_offset,10); // nonlinearity was 4
- //cal1( setup, ni_ao0_reference,XXX); // was 6
- cal1( setup, ni_ao1_zero_offset,9); // was 8
- //cal1( setup, ni_ao1_zero_offset,1); // nonlinearity was 7
- cal1( setup, ni_ao1_reference,5); // was 9
- }
- return 0;
+ ni_caldac_layout_t layout;
+
+ init_ni_caldac_layout( &layout );
+ layout.adc_pregain_offset = 0;
+ layout.adc_postgain_offset = 4;
+ layout.adc_pregain_offset_fine = 8;
+ layout.adc_gain = 2;
+ layout.dac_offset[ 0 ] = 6;
+ layout.dac_gain[ 0 ] = 11;
+ layout.dac_linearity[ 0 ] = 10;
+ layout.dac_offset[ 1 ] = 9;
+ layout.dac_gain[ 1 ] = 5;
+ layout.dac_linearity[ 1 ] = 1;
+
+ return cal_ni_generic( setup, &layout );
}
-int cal_ni_pci_6052e(calibration_setup_t *setup)
+static int cal_ni_pci_6052e(calibration_setup_t *setup)
{
/*
* This board has noisy caldacs
*
- * The NI documentation says:
- * 0, 8 AI pregain (coarse, fine) 3, 11
- * 4, 12 AI postgain 15,7
- * 2, 10 AI reference 1, 9
- * 14, 7 AI unipolar offset 5, 13
+ * The NI documentation says (true mb88341 addressing):
+ * 0, 8 AI pregain (coarse, fine)
+ * 4, 12 AI postgain
+ * 2, 10 AI reference
+ * 14, 7 AI unipolar offset
*
* 0 AO0 linearity
- * 8, 4 AO0 reference 23, 19 7, 3
- * 12 AO0 offset 27 11
- * 2 AO1 linearity
- * 10, 6 AO1 reference 25, 21 9, 5
- * 14 AO1 offset 29, 17 13, 1
- *
- * 0 3 x 0011
+ * 8, 4 AO0 reference
+ * 12 AO0 offset
+ * 2 AO1 linearity
+ * 10, 6 AO1 reference
+ * 14 AO1 offset
*
- * 2 1 x 0001
+ * For us, these map to (ad8804 channels)
*
- * 4 7 15 3 0111 0011
+ * 0, 1 AI pregain (coarse, fine)
+ * 2, 3 AI postgain
+ * 4, 5 AI reference
+ * 7 AI unipolar offset
*
- * 6 17 5 0101
- * 7 x
- * 8 11 19 7 1011 0111
- *
- * 10 9 21 9 1001 1001
+ * 0 AO0 linearity
+ * 1, 2 AO0 reference
+ * 3 AO0 offset
+ * 4 AO1 linearity
+ * 5, 6 AO1 reference
+ * 7 AO1 offset
*
- * 12 x 23 11 1011
+ * or, with mb88341 channels
*
- * 14 5 13 1 0101 0001
+ * xxx AO0 linearity
+ * 7, 3 AO0 reference
+ * 11 AO0 offset
+ * 1 AO1 linearity
+ * 9, 5 AO1 reference
+ * xxx AO1 offset
*
*/
+ ni_caldac_layout_t layout;
+
+ init_ni_caldac_layout( &layout );
+ layout.adc_pregain_offset = 0;
+ layout.adc_postgain_offset = 2;
+ layout.adc_gain = 4;
+ layout.adc_unip_offset = 6;
+ layout.adc_unip_offset_fine = 7;
+ layout.adc_pregain_offset_fine = 1;
+ layout.adc_postgain_offset_fine = 3;
+ layout.adc_gain_fine = 5;
+
+ DPRINT(0, "WARNING: you need comedi driver version 0.7.67 or later\n"
+ "for this calibration to work properly\n" );
+/* this works when the first two caldacs are ad8804_debug */
+ layout.dac_offset[ 0 ] = 16 + 3;
+ layout.dac_gain[ 0 ] = 16 + 1;
+ layout.dac_gain_fine[ 0 ] = 16 + 2;
+ layout.dac_linearity[ 0 ] = 16 + 0;
+ layout.dac_offset[ 1 ] = 16 + 7;
+ layout.dac_gain[ 1 ] = 16 + 5;
+ layout.dac_gain_fine[ 1 ] = 16 + 6;
+ layout.dac_linearity[ 1 ] = 16 + 4;
+
+ return cal_ni_generic( setup, &layout );
+}
+
+static int cal_ni_daqcard_ai_16e_4(calibration_setup_t *setup)
+{
+ ni_caldac_layout_t layout;
+
+ init_ni_caldac_layout( &layout );
+ layout.adc_pregain_offset = 0;
+ layout.adc_postgain_offset = 1;
+ layout.adc_gain = 3;
+ layout.adc_unip_offset = 2;
+
+ return cal_ni_generic( setup, &layout );
+}
+
+static int adc_offset_611x( unsigned int channel )
+{
+ return 2 * channel + 2;
+}
+static int adc_gain_611x( unsigned int channel )
+{
+ return 2 * channel + 1;
+}
+static int dac_offset_611x( unsigned int channel )
+{
+ return 12 + 2 + 2 * channel;
+}
+static int dac_gain_611x( unsigned int channel )
+{
+ return 12 + 1 + 2 * channel;
+}
+static int cal_ni_pci_611x( calibration_setup_t *setup )
+{
+ generic_layout_t layout;
+
+ init_generic_layout( &layout );
+ layout.adc_offset = adc_offset_611x;
+ layout.adc_gain = adc_gain_611x;
+ layout.dac_offset = dac_offset_611x;
+ layout.dac_gain = dac_gain_611x;
+ layout.adc_high_observable = ni_reference_611x;
+ layout.adc_ground_observable = ni_zero_offset_611x;
+ layout.dac_high_observable = ni_ao_reference_611x;
+ layout.dac_ground_observable = ni_ao_zero_offset_611x;
+
+ return generic_cal_by_channel_and_range( setup, &layout );
+}
- cal_postgain_binary( setup, ni_zero_offset_low,ni_zero_offset_high,2);
- postgain_cal( setup, ni_zero_offset_low,ni_zero_offset_high,3);
- cal1( setup, ni_zero_offset_high,0);
- cal1( setup, ni_zero_offset_high,1);
- cal_binary( setup, ni_reference_low,4);
- cal1_fine( setup, ni_reference_low,4);
- cal1( setup, ni_reference_low,5);
- cal1( setup, ni_unip_offset_low,6);
- cal1_fine( setup, ni_unip_offset_low,6);
- if(do_output){
- cal1( setup, ni_ao0_zero_offset,12+11);
- cal1_fine( setup, ni_ao0_zero_offset,12+11);
- cal1( setup, ni_ao0_reference,12+7);
- cal1_fine( setup, ni_ao0_reference,12+7);
- cal1( setup, ni_ao0_reference,12+3);
- cal1( setup, ni_ao1_zero_offset,12+1);
- cal1( setup, ni_ao1_reference,12+9);
- cal1_fine( setup, ni_ao1_reference,12+9);
- cal1( setup, ni_ao1_reference,12+5);
+static int cal_ni_pci_mio_16e_4( calibration_setup_t *setup )
+{
+ ni_caldac_layout_t layout;
+
+ init_ni_caldac_layout( &layout );
+ layout.adc_pregain_offset = 8;
+ layout.adc_postgain_offset = 4;
+ layout.adc_gain = 2;
+ layout.adc_unip_offset = 7;
+ layout.dac_offset[ 0 ] = 6;
+ layout.dac_gain[ 0 ] = 11;
+ layout.dac_linearity[ 0 ] = 10;
+ layout.dac_offset[ 1 ] = 9;
+ layout.dac_gain[ 1 ] = 5;
+ layout.dac_linearity[ 1 ] = 1;
+
+ return cal_ni_generic( setup, &layout );
+}
+
+static int cal_ni_daqcard_6062e( calibration_setup_t *setup )
+{
+ ni_caldac_layout_t layout;
+
+ if( comedi_get_version_code( setup->dev ) <= COMEDI_VERSION_CODE( 0, 7, 66 ) )
+ {
+ DPRINT(0, "WARNING: you need comedi driver version 0.7.67 or later\n"
+ "for this calibration to work properly\n" );
}
- return 0;
+ init_ni_caldac_layout( &layout );
+ layout.adc_pregain_offset = 8;
+ layout.adc_postgain_offset = 4;
+ layout.adc_gain = 2;
+ layout.adc_unip_offset = 7;
+ layout.dac_offset[ 0 ] = 6;
+ layout.dac_gain[ 0 ] = 11;
+ layout.dac_linearity[ 0 ] = 10;
+ layout.dac_offset[ 1 ] = 9;
+ layout.dac_gain[ 1 ] = 5;
+ layout.dac_linearity[ 1 ] = 1;
+
+ return cal_ni_generic( setup, &layout );
}
-int cal_ni_pci_mio_16e_4(calibration_setup_t *setup)
+static int cal_ni_daqcard_6024e( calibration_setup_t *setup )
{
- /* this is for the ad8804_debug caldac */
+ ni_caldac_layout_t layout;
+
+ init_ni_caldac_layout( &layout );
+
+ layout.adc_pregain_offset = 0;
+ layout.adc_postgain_offset = 4;
+ layout.adc_gain = 2;
+ //layout.adc_unip_offset = 7;
+ layout.dac_offset[ 0 ] = 6;
+ layout.dac_gain[ 0 ] = 3;
+ //layout.dac_linearity[ 0 ] = 10;
+ layout.dac_offset[ 1 ] = 1;
+ layout.dac_gain[ 1 ] = 5;
+ //layout.dac_linearity[ 1 ] = 1;
+
+ return cal_ni_generic( setup, &layout );
+}
- cal_postgain_binary( setup, ni_zero_offset_low,ni_zero_offset_high,4);
- //cal_postgain_fine( setup, ni_zero_offset_low,ni_zero_offset_high,4);
- cal1( setup, ni_zero_offset_high,8);
- cal_binary( setup, ni_reference_low,2);
- cal1_fine( setup, ni_reference_low,2);
-
- cal1( setup, ni_unip_offset_low,7);
- cal1_fine( setup, ni_unip_offset_low,7);
-
- if(do_output){
- cal_binary( setup, ni_ao0_zero_offset,6);
- cal1_fine( setup, ni_ao0_zero_offset,6);
- //cal1( setup, ni_ao0_nonlinearity,10);
- cal_binary( setup, ni_ao0_reference,11);
- cal1_fine( setup, ni_ao0_reference,11);
- cal_binary( setup, ni_ao1_zero_offset,9);
- cal1_fine( setup, ni_ao1_zero_offset,9);
- //cal1( setup, ni_ao1_nonlinearity,1);
- cal_binary( setup, ni_ao1_reference,5);
- cal1_fine( setup, ni_ao1_reference,5);
+static int cal_ni_daqcard_6036e( calibration_setup_t *setup )
+{
+ ni_caldac_layout_t layout;
+
+ if( comedi_get_version_code( setup->dev ) <= COMEDI_VERSION_CODE( 0, 7, 68 ) )
+ {
+ DPRINT(0, "WARNING: you need comedi driver version 0.7.69 or later\n"
+ "for this calibration to work properly\n" );
}
- return 0;
+
+ init_ni_caldac_layout( &layout );
+
+ layout.adc_pregain_offset = 0;
+ layout.adc_pregain_offset_fine = 8;
+ layout.adc_postgain_offset = 4;
+ layout.adc_gain = 2;
+
+ layout.dac_offset[0] = 6;
+ layout.dac_gain[0] = 7;
+ layout.dac_gain_fine[ 0 ] = 11;
+ layout.dac_linearity[0] = 10;
+
+ layout.dac_offset[ 1 ] = 9;
+ layout.dac_gain[ 1 ] = 3;
+ layout.dac_gain_fine[ 1 ] = 5;
+ layout.dac_linearity[1] = 1;
+
+ return cal_ni_generic( setup, &layout );
+}
+
+static void prep_adc_caldacs_generic( calibration_setup_t *setup,
+ const ni_caldac_layout_t *layout, unsigned int range )
+{
+ int retval;
+
+ if( setup->old_calibration == NULL )
+ {
+ reset_caldac( setup, layout->adc_pregain_offset );
+ reset_caldac( setup, layout->adc_postgain_offset );
+ reset_caldac( setup, layout->adc_gain );
+ reset_caldac( setup, layout->adc_pregain_offset_fine );
+ reset_caldac( setup, layout->adc_postgain_offset_fine );
+ reset_caldac( setup, layout->adc_gain_fine );
+ reset_caldac( setup, layout->adc_unip_offset );
+ reset_caldac( setup, layout->adc_unip_offset_fine );
+ }else
+ {
+ retval = comedi_apply_parsed_calibration( setup->dev, setup->ad_subdev,
+ 0, range, AREF_GROUND, setup->old_calibration );
+ if( retval < 0 )
+ {
+ DPRINT( 0, "Failed to apply existing calibration, reseting adc caldacs.\n" );
+ reset_caldac( setup, layout->adc_pregain_offset );
+ reset_caldac( setup, layout->adc_postgain_offset );
+ reset_caldac( setup, layout->adc_gain );
+ reset_caldac( setup, layout->adc_pregain_offset_fine );
+ reset_caldac( setup, layout->adc_postgain_offset_fine );
+ reset_caldac( setup, layout->adc_gain_fine );
+ reset_caldac( setup, layout->adc_unip_offset );
+ reset_caldac( setup, layout->adc_unip_offset_fine );
+ }
+ }
+}
+
+static void prep_dac_caldacs_generic( calibration_setup_t *setup,
+ const ni_caldac_layout_t *layout, unsigned int channel, unsigned int range )
+{
+ int retval;
+
+ if( setup->da_subdev < 0 ) return;
+
+ if( setup->old_calibration == NULL )
+ {
+ reset_caldac( setup, layout->dac_offset[ channel ] );
+ reset_caldac( setup, layout->dac_offset_fine[ channel ] );
+ reset_caldac( setup, layout->dac_gain[ channel ] );
+ reset_caldac( setup, layout->dac_gain_fine[ channel ] );
+ reset_caldac( setup, layout->dac_linearity[ channel ] );
+ }else
+ {
+ retval = comedi_apply_parsed_calibration( setup->dev, setup->da_subdev,
+ channel, range, AREF_GROUND, setup->old_calibration );
+ if( retval < 0 )
+ {
+ DPRINT( 0, "Failed to apply existing calibration, reseting dac caldacs.\n" );
+ reset_caldac( setup, layout->dac_offset[ channel ] );
+ reset_caldac( setup, layout->dac_offset_fine[ channel ] );
+ reset_caldac( setup, layout->dac_gain[ channel ] );
+ reset_caldac( setup, layout->dac_gain_fine[ channel ] );
+ reset_caldac( setup, layout->dac_linearity[ channel ] );
+ }
+ }
+}
+
+static void prep_adc_for_dac( calibration_setup_t *setup, int observable )
+{
+ unsigned int adc_range;
+ int chanspec;
+
+ if( observable < 0 ) return;
+
+ chanspec = setup->observables[ observable ].observe_insn.chanspec;
+ adc_range = CR_RANGE( chanspec );
+
+ comedi_apply_parsed_calibration( setup->dev, setup->ad_subdev,
+ 0, adc_range, 0, setup->new_calibration );
+}
+
+static int cal_ni_generic( calibration_setup_t *setup, const ni_caldac_layout_t *layout )
+{
+ comedi_calibration_setting_t *current_cal;
+ int retval;
+ int num_ai_ranges;
+ int range;
+ int ai_unipolar_lowgain, ai_bipolar_lowgain;
+
+ num_ai_ranges = comedi_get_n_ranges( setup->dev, setup->ad_subdev, 0 );
+ assert( num_ai_ranges > 0 );
+
+ ai_bipolar_lowgain = get_bipolar_lowgain( setup->dev, setup->ad_subdev );
+ ai_unipolar_lowgain = get_unipolar_lowgain( setup->dev, setup->ad_subdev );
+
+ prep_adc_caldacs_generic( setup, layout, ai_bipolar_lowgain );
+
+ current_cal = sc_alloc_calibration_setting( setup );
+ current_cal->subdevice = setup->ad_subdev;
+ reset_caldac( setup, layout->adc_gain_fine );
+ generic_do_relative( setup, current_cal, ni_zero_offset_low,
+ ni_reference_low, layout->adc_gain );
+ reset_caldac( setup, layout->adc_postgain_offset_fine );
+ generic_do_relative( setup, current_cal, ni_zero_offset_low,
+ ni_zero_offset_high, layout->adc_postgain_offset );
+ generic_do_relative( setup, current_cal, ni_zero_offset_low,
+ ni_zero_offset_high, layout->adc_postgain_offset_fine );
+ reset_caldac( setup, layout->adc_pregain_offset_fine );
+ generic_do_cal( setup, current_cal, ni_zero_offset_high, layout->adc_pregain_offset );
+ generic_do_relative( setup, current_cal, ni_zero_offset_low,
+ ni_reference_low, layout->adc_gain_fine );
+ generic_do_cal( setup, current_cal, ni_zero_offset_high,
+ layout->adc_pregain_offset_fine );
+ sc_push_channel( current_cal, SC_ALL_CHANNELS );
+ sc_push_aref( current_cal, SC_ALL_AREFS );
+ if( layout->adc_unip_offset >= 0 )
+ {
+ sc_push_range( current_cal, SC_ALL_RANGES );
+ }else
+ {
+ for( range = 0; range < num_ai_ranges; range++ )
+ {
+ if( is_bipolar( setup->dev, setup->ad_subdev, 0, range ) )
+ sc_push_range( current_cal, range );
+ }
+ }
+
+ /* do seperate unipolar calibration if appropriate */
+ if( ai_unipolar_lowgain >= 0 )
+ {
+ current_cal = sc_alloc_calibration_setting( setup );
+ current_cal->subdevice = setup->ad_subdev;
+ if( layout->adc_unip_offset >= 0 )
+ {
+ reset_caldac( setup, layout->adc_unip_offset_fine );
+ generic_do_cal( setup, current_cal, ni_unip_zero_offset_high,
+ layout->adc_unip_offset );
+ generic_do_cal( setup, current_cal, ni_unip_zero_offset_high,
+ layout->adc_unip_offset_fine );
+ /* if we don't have a unipolar offset caldac, do a fully
+ * independent calibration for unipolar ranges */
+ }else
+ {
+ prep_adc_caldacs_generic( setup, layout, ai_unipolar_lowgain );
+ generic_peg( setup, ni_unip_zero_offset_low,
+ layout->adc_pregain_offset, 1 );
+ generic_peg( setup, ni_unip_zero_offset_low,
+ layout->adc_postgain_offset, 1 );
+ generic_do_relative( setup, current_cal, ni_unip_zero_offset_low,
+ ni_unip_reference_low, layout->adc_gain );
+ generic_do_relative( setup, current_cal, ni_unip_zero_offset_low,
+ ni_unip_zero_offset_high, layout->adc_postgain_offset );
+ generic_do_relative( setup, current_cal, ni_unip_zero_offset_low,
+ ni_unip_zero_offset_high, layout->adc_postgain_offset_fine );
+ generic_do_cal( setup, current_cal, ni_unip_zero_offset_high,
+ layout->adc_pregain_offset );
+ generic_do_relative( setup, current_cal, ni_unip_zero_offset_low,
+ ni_unip_reference_low, layout->adc_gain_fine );
+ generic_do_cal( setup, current_cal, ni_unip_zero_offset_high,
+ layout->adc_pregain_offset_fine );
+ }
+ for( range = 0; range < num_ai_ranges; range++ )
+ {
+ if( is_unipolar( setup->dev, setup->ad_subdev, 0, range ) )
+ sc_push_range( current_cal, range );
+ }
+ sc_push_channel( current_cal, SC_ALL_CHANNELS );
+ sc_push_aref( current_cal, SC_ALL_AREFS );
+ }
+ if( setup->da_subdev >= 0 && setup->do_output )
+ {
+ unsigned int channel, range;
+ int ao_unipolar_lowgain = get_unipolar_lowgain( setup->dev, setup->da_subdev );
+ int ao_bipolar_lowgain = get_bipolar_lowgain( setup->dev, setup->da_subdev );
+ int num_ao_ranges;
+
+ for( channel = 0; channel < 2; channel++ )
+ {
+ num_ao_ranges = comedi_get_n_ranges( setup->dev, setup->da_subdev, channel );
+ prep_dac_caldacs_generic( setup, layout, channel, ao_bipolar_lowgain );
+ prep_adc_for_dac( setup, ni_ao_reference( channel ) );
+
+ current_cal = sc_alloc_calibration_setting( setup );
+ current_cal->subdevice = setup->da_subdev;
+ generic_do_linearity( setup, current_cal, ni_ao_zero_offset( channel ),
+ ni_ao_mid_linearity( channel ), ni_ao_reference( channel ),
+ layout->dac_linearity[ channel ] );
+ reset_caldac(setup, layout->dac_offset_fine[channel]);
+ generic_do_cal( setup, current_cal, ni_ao_zero_offset( channel ),
+ layout->dac_offset[ channel ] );
+ generic_do_cal( setup, current_cal, ni_ao_zero_offset( channel ),
+ layout->dac_offset_fine[ channel ] );
+ reset_caldac( setup, layout->dac_gain_fine[ channel ] );
+ generic_do_cal( setup, current_cal, ni_ao_reference( channel ),
+ layout->dac_gain[ channel ] );
+ generic_do_cal( setup, current_cal, ni_ao_reference( channel ),
+ layout->dac_gain_fine[ channel ] );
+ sc_push_channel( current_cal, channel );
+ for( range = 0; range < num_ao_ranges; range++ )
+ {
+ if( is_bipolar( setup->dev, setup->da_subdev, channel, range ) )
+ sc_push_range( current_cal, range );
+ }
+ sc_push_aref( current_cal, SC_ALL_AREFS );
+
+ if( ao_unipolar_lowgain >= 0 )
+ {
+ prep_dac_caldacs_generic( setup, layout, channel, ao_unipolar_lowgain );
+
+ current_cal = sc_alloc_calibration_setting( setup );
+ current_cal->subdevice = setup->da_subdev;
+ generic_do_linearity( setup, current_cal, ni_ao_unip_low_linearity( channel ),
+ ni_ao_unip_mid_linearity( channel ), ni_ao_unip_reference( channel ),
+ layout->dac_linearity[ channel ] );
+ reset_caldac( setup, layout->dac_offset_fine[ channel ] );
+ generic_do_cal( setup, current_cal, ni_ao_unip_zero_offset( channel),
+ layout->dac_offset[ channel ] );
+ generic_do_cal( setup, current_cal, ni_ao_unip_zero_offset( channel),
+ layout->dac_offset_fine[ channel ] );
+ reset_caldac( setup, layout->dac_gain_fine[ channel ] );
+ generic_do_cal( setup, current_cal, ni_ao_unip_reference( channel ),
+ layout->dac_gain[ channel ] );
+ generic_do_cal( setup, current_cal, ni_ao_unip_reference( channel ),
+ layout->dac_gain_fine[ channel ] );
+ sc_push_channel( current_cal, channel );
+ for( range = 0; range < num_ao_ranges; range++ )
+ {
+ if( is_unipolar( setup->dev, setup->da_subdev, channel, range ) )
+ sc_push_range( current_cal, range );
+ }
+ sc_push_aref( current_cal, SC_ALL_AREFS );
+ }
+ }
+ }
+
+ retval = write_calibration_file( setup );
+
+ return retval;
}
-double ni_get_reference( calibration_setup_t *setup, int lsb_loc,int msb_loc)
+static double ni_get_reference( calibration_setup_t *setup, int lsb_loc,int msb_loc)
{
int lsb,msb;
- int uv;
+ int16_t uv;
double ref;
- lsb=read_eeprom( setup, lsb_loc);
- msb=read_eeprom( setup, msb_loc);
- printf("lsb=%d msb=%d\n",read_eeprom( setup, 425),read_eeprom( setup, 426));
+ lsb=read_eeprom( setup, lsb_loc );
+ msb=read_eeprom( setup, msb_loc );
+ assert( lsb >=0 && msb >= 0 );
+ DPRINT(0,"eeprom reference lsb=%d msb=%d\n", lsb, msb);
- uv=lsb | (msb<<8);
- if(uv>=0x8000)uv-=0x10000;
+ uv = ( lsb & 0xff ) | ( ( msb << 8 ) & 0xff00 );
ref=5.000+1.0e-6*uv;
- printf("ref=%g\n",ref);
+ DPRINT(0, "resulting reference voltage: %g\n", ref );
+ if( fabs( ref - 5.0 ) > 0.005 )
+ DPRINT( 0, "WARNING: eeprom indicates reference is more than 5mV away\n"
+ "from 5V. Possible bad eeprom address?\n" );
return ref;
}
-#if 0
-void cal_ni_results(void)
+/****************
+ NI 671x and 673x support
+ **************/
+
+static const int channels_per_ad8804 = 16;
+
+static inline int ni67xx_ao_gain_caldac(unsigned int ao_channel)
{
- comedi_range *range;
- int bipolar_lowgain;
- int bipolar_highgain;
- int unipolar_lowgain;
- //int have_ao;
- char s[32];
+ int ad8804_gain_channels[4] = {8, 2, 11, 5};
+ int caldac_channel = ad8804_gain_channels[ao_channel % 4];
+ int caldac_index = ao_channel / 4;
+ /* just guessing that second ad8804 is works for ao channels 4-7
+ * the same as the first ad8804 works for ao channels 0-3 */
+ return caldac_index * channels_per_ad8804 + caldac_channel;
+}
+static inline int ni67xx_ao_linearity_caldac(unsigned int ao_channel)
+{
+ int ad8804_linearity_channels[4] = {4, 10, 1, 0};
+ int caldac_channel = ad8804_linearity_channels[ao_channel % 4];
+ int caldac_index = ao_channel / 4;
- bipolar_lowgain = get_bipolar_lowgain(dev,setup->ad_subdev);
- bipolar_highgain = get_bipolar_highgain(dev,setup->ad_subdev);
- unipolar_lowgain = get_unipolar_lowgain(dev,setup->ad_subdev);
+ return caldac_index * channels_per_ad8804 + caldac_channel;
+}
+static inline int ni67xx_ao_offset_caldac(unsigned int ao_channel)
+{
+ int ad8804_offset_channels[4] = {7, 6, 9, 3};
+ int caldac_channel = ad8804_offset_channels[ao_channel % 4];
+ int caldac_index = ao_channel / 4;
- /* 0 offset, low gain */
- range = comedi_get_range(dev,setup->ad_subdev,0,bipolar_lowgain);
- read_chan2(s,0,bipolar_lowgain);
- DPRINT(0,"bipolar zero offset, low gain [%g,%g]: %s\n",
- range->min,range->max,s);
+ return caldac_index * channels_per_ad8804 + caldac_channel;
+}
- /* 0 offset, high gain */
- range = comedi_get_range(dev,setup->ad_subdev,0,bipolar_highgain);
- read_chan2(s,0,bipolar_highgain);
- DPRINT(0,"bipolar zero offset, high gain [%g,%g]: %s\n",
- range->min,range->max,s);
+static int ni67xx_ao_ground_observable_index( const calibration_setup_t *setup,
+ unsigned int channel, unsigned int ao_range )
+{
+ return 3 * channel + 0;
+}
- /* unip/bip offset */
- range = comedi_get_range(dev,setup->ad_subdev,0,unipolar_lowgain);
- read_chan2(s,0,unipolar_lowgain);
- DPRINT(0,"unipolar zero offset, low gain [%g,%g]: %s\n",
- range->min,range->max,s);
+static int ni67xx_ao_mid_observable_index( const calibration_setup_t *setup,
+ unsigned int channel, unsigned int ao_range )
+{
+ return 3 * channel + 1;
+}
+static int ni67xx_ao_high_observable_index( const calibration_setup_t *setup,
+ unsigned int channel, unsigned int ao_range )
+{
+ return 3 * channel + 2;
}
-void ni_mio_ai_postgain_cal(void)
+static const double ni67xx_unitless_adc_offset = 0.5;
+
+/* determine conversion factor between actual voltage and
+ * interval [0,1) returned by reads from the calibration adc
+ * subdevice.
+ */
+static double ni67xx_unitless_adc_slope(calibration_setup_t *setup)
{
- linear_fit_t l;
- double offset_r0;
- double offset_r7;
- double gain;
- double a;
+ double reference_in_volts;
+ double reference_unitless;
+ double slope;
+ comedi_insn insn;
+ lsampl_t data;
+ comedi_range *range;
+ static const int maxdata = 0x10000;
+ int retval;
+
+ if(ni_board(setup)->ref_eeprom_lsb >= 0 &&
+ ni_board(setup)->ref_eeprom_msb >= 0)
+ {
+ reference_in_volts = ni_get_reference(setup,
+ ni_board(setup)->ref_eeprom_lsb, ni_board(setup)->ref_eeprom_msb );
+ }else
+ {
+ DPRINT( 0, "WARNING: unknown eeprom address for reference voltage\n"
+ "correction. This might be fixable if you send us an eeprom dump\n"
+ "(see the demo/eeprom_dump program).\n");
+ reference_in_volts = 5.0;
+ }
- check_gain_chan_x(&l,CR_PACK(0,0,AREF_OTHER),1);
- offset_r0=linear_fit_func_y(&l,caldacs[1].current);
- printf("offset r0 %g\n",offset_r0);
+ memset(&insn, 0, sizeof(insn));
+ insn.insn = INSN_READ;
+ insn.n = 1;
+ insn.subdev = setup->ad_subdev;
+ insn.data = &data;
+ insn.chanspec = CR_PACK(0, 0, AREF_GROUND) | CR_ALT_SOURCE;
+ retval = comedi_do_insn(setup->dev, &insn);
+ assert(retval >= 0);
- check_gain_chan_x(&l,CR_PACK(0,7,AREF_OTHER),1);
- offset_r7=linear_fit_func_y(&l,caldacs[1].current);
- printf("offset r7 %g\n",offset_r7);
+ range = comedi_get_range(setup->dev, setup->ad_subdev, 0, 0);
+ assert( range );
+ reference_unitless = comedi_to_phys(data, range, maxdata);
- gain=l.slope;
-
- a=(offset_r0-offset_r7)/(200.0-1.0);
- a=caldacs[1].current-a/gain;
+ slope = (reference_unitless - ni67xx_unitless_adc_offset) / reference_in_volts;
- printf("%g\n",a);
+ return slope;
+}
- caldacs[1].current=rint(a);
- update_caldac(1);
+/* calibration adc uses RANGE_UNKNOWN, so it will return a value from
+ 0.0 to 1.0 instead of a voltage, so we need to renormalize. */
+static void ni67xx_set_target( calibration_setup_t *setup, int obs, double target, double slope)
+{
+ set_target(setup, obs, target);
+ /* convert target from volts to interval [0,1) which calibration
+ * adc returns */
+ setup->observables[obs].target *= slope;
+ setup->observables[obs].target += ni67xx_unitless_adc_offset;
}
-void ni_mio_ai_postgain_cal_2(int chan,int dac,int range_lo,int range_hi,double gain)
+static void ni67xx_setup_observables( calibration_setup_t *setup )
{
- double offset_lo,offset_hi;
- linear_fit_t l;
+ comedi_insn tmpl, po_tmpl;
+ observable *o;
+ int num_ao_channels;
+ int i;
double slope;
- double a;
- check_gain_chan_x(&l,CR_PACK(chan,range_lo,AREF_OTHER),dac);
- offset_lo=linear_fit_func_y(&l,caldacs[dac].current);
- printf("offset lo %g\n",offset_lo);
+ slope = ni67xx_unitless_adc_slope(setup);
+
+ /* calibration adc is very slow (15HZ) but accurate, so only sample a few times */
+ setup->sv_order = 1;
+
+ num_ao_channels = comedi_get_n_channels(setup->dev, setup->da_subdev);
+ assert(num_ao_channels >= 0);
+
+ memset( &tmpl, 0, sizeof(tmpl) );
+ tmpl.insn = INSN_READ;
+ tmpl.n = 1;
+ tmpl.subdev = setup->ad_subdev;
- check_gain_chan_x(&l,CR_PACK(chan,range_hi,AREF_OTHER),dac);
- offset_hi=linear_fit_func_y(&l,caldacs[dac].current);
- printf("offset hi %g\n",offset_hi);
+ memset( &po_tmpl, 0, sizeof(po_tmpl) );
+ po_tmpl.insn = INSN_WRITE;
+ po_tmpl.n = 1;
+ po_tmpl.subdev = setup->da_subdev;
- slope=l.slope;
-
- a=(offset_lo-offset_hi)/(gain-1.0);
- a=caldacs[dac].current-a/slope;
+ setup->n_observables = 0;
- printf("%g\n",a);
+ for(i = 0; i < num_ao_channels; i++)
+ {
+ o = setup->observables + ni67xx_ao_ground_observable_index( setup,
+ i, 0);
+ o->reference_source = -1;
+ assert( o->name == NULL );
+ asprintf(&o->name, "dac%i ground, ground referenced", i);
+ o->preobserve_insn = po_tmpl;
+ o->preobserve_insn.chanspec = CR_PACK(i, 0, AREF_GROUND);
+ o->preobserve_insn.data = o->preobserve_data;
+ o->observe_insn = tmpl;
+ o->observe_insn.chanspec = CR_PACK(i, 0, AREF_GROUND);
+ ni67xx_set_target(setup, ni67xx_ao_ground_observable_index(setup, i, 0), 0.0, slope);
+ setup->n_observables++;
+
+ o = setup->observables + ni67xx_ao_mid_observable_index( setup,
+ i, 0);
+ o->reference_source = -1;
+ assert( o->name == NULL );
+ asprintf(&o->name, "dac%i mid, ground referenced", i);
+ o->preobserve_insn = po_tmpl;
+ o->preobserve_insn.chanspec = CR_PACK(i, 0, AREF_GROUND);
+ o->preobserve_insn.data = o->preobserve_data;
+ o->observe_insn = tmpl;
+ o->observe_insn.chanspec = CR_PACK(i, 0, AREF_GROUND);
+ ni67xx_set_target(setup, ni67xx_ao_mid_observable_index(setup, i, 0), 4.0, slope);
+ setup->n_observables++;
+
+ o = setup->observables + ni67xx_ao_high_observable_index( setup, i, 0);
+ o->reference_source = -1;
+ assert( o->name == NULL );
+ asprintf(&o->name, "dac%i high, ground referenced", i);
+ o->preobserve_insn = po_tmpl;
+ o->preobserve_insn.chanspec = CR_PACK( i, 0, AREF_GROUND );
+ o->preobserve_insn.data = o->preobserve_data;
+ o->observe_insn = tmpl;
+ o->observe_insn.chanspec = CR_PACK(i, 0, AREF_GROUND);
+ ni67xx_set_target(setup, ni67xx_ao_high_observable_index(setup, i, 0), 8.0, slope);
+ setup->n_observables++;
+ }
- caldacs[dac].current=rint(a);
- update_caldac(dac);
+ return;
+}
+
+static int cal_ni_pci_6711(calibration_setup_t *setup)
+{
+ generic_layout_t layout;
+
+ init_generic_layout( &layout );
+ layout.dac_gain = ni67xx_ao_gain_caldac;
+ layout.dac_linearity = ni67xx_ao_linearity_caldac;
+ layout.dac_offset = ni67xx_ao_offset_caldac;
+ layout.dac_high_observable = ni67xx_ao_high_observable_index;
+ layout.dac_mid_observable = ni67xx_ao_mid_observable_index;
+ layout.dac_ground_observable = ni67xx_ao_ground_observable_index;
+ layout.dac_fractional_tolerance = get_tolerance( setup, setup->da_subdev, 1.0 );
+ return generic_cal_ao(setup, &layout);
}
-#endif