* This file is part of the libsigrok project.
*
* Copyright (C) 2014 Bert Vermeulen <bert@biot.com>
+ * Copyright (C) 2015 Google, Inc.
+ * (Written by Alexandru Gagniuc <mrnuke@google.com> for Google, Inc.)
+ * Copyright (C) 2017,2019 Frank Stettner <frank-stettner@gmx.net>
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
+#include <config.h>
#include <string.h>
+#include <strings.h>
#include "protocol.h"
#define CH_IDX(x) (1 << x)
+#define FREQ_DC_ONLY {0, 0, 0, 0, 0}
+#define NO_OVP_LIMITS {0, 0, 0, 0, 0}
+#define NO_OCP_LIMITS {0, 0, 0, 0, 0}
-const char *pps_vendors[][2] = {
- { "RIGOL TECHNOLOGIES", "Rigol" },
- { "HEWLETT-PACKARD", "HP" },
+/* Agilent/Keysight N5700A series */
+static const uint32_t agilent_n5700a_devopts[] = {
+ SR_CONF_CONTINUOUS,
+ SR_CONF_LIMIT_SAMPLES | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_LIMIT_MSEC | SR_CONF_GET | SR_CONF_SET,
+};
+
+static const uint32_t agilent_n5700a_devopts_cg[] = {
+ SR_CONF_OVER_VOLTAGE_PROTECTION_THRESHOLD | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_OVER_CURRENT_PROTECTION_ENABLED | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_OVER_CURRENT_PROTECTION_THRESHOLD | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_VOLTAGE | SR_CONF_GET,
+ SR_CONF_VOLTAGE_TARGET | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_CURRENT | SR_CONF_GET,
+ SR_CONF_ENABLED | SR_CONF_GET | SR_CONF_SET,
+};
+
+static const struct channel_group_spec agilent_n5700a_cg[] = {
+ { "1", CH_IDX(0), PPS_OVP | PPS_OCP, SR_MQFLAG_DC },
+};
+
+static const struct channel_spec agilent_n5767a_ch[] = {
+ { "1", { 0, 60, 0.0072, 3, 4 }, { 0, 25, 0.003, 3, 4 }, { 0, 1500 }, FREQ_DC_ONLY, NO_OVP_LIMITS, NO_OCP_LIMITS },
+};
+
+static const struct channel_spec agilent_n5763a_ch[] = {
+ { "1", { 0, 12.5, 0.0015, 3, 4 }, { 0, 120, 0.0144, 3, 4 }, { 0, 1500 }, FREQ_DC_ONLY, NO_OVP_LIMITS, NO_OCP_LIMITS },
+};
+
+/*
+ * TODO: OVER_CURRENT_PROTECTION_ACTIVE status can be determined by the OC bit
+ * in STAT:QUES:EVEN?, but this is not implemented.
+ */
+static const struct scpi_command agilent_n5700a_cmd[] = {
+ { SCPI_CMD_REMOTE, "SYST:COMM:RLST REM" },
+ { SCPI_CMD_LOCAL, "SYST:COMM:RLST LOC" },
+ { SCPI_CMD_GET_MEAS_VOLTAGE, ":MEAS:VOLT?" },
+ { SCPI_CMD_GET_MEAS_CURRENT, "MEAS:CURR?" },
+ { SCPI_CMD_GET_VOLTAGE_TARGET, ":SOUR:VOLT?" },
+ { SCPI_CMD_SET_VOLTAGE_TARGET, ":SOUR:VOLT %.6f" },
+ { SCPI_CMD_GET_CURRENT_LIMIT, ":SOUR:CURR?" },
+ { SCPI_CMD_SET_CURRENT_LIMIT, ":SOUR:CURR %.6f" },
+ { SCPI_CMD_GET_OUTPUT_ENABLED, ":OUTP:STAT?" },
+ { SCPI_CMD_SET_OUTPUT_ENABLE, ":OUTP ON" },
+ { SCPI_CMD_SET_OUTPUT_DISABLE, ":OUTP OFF" },
+ { SCPI_CMD_GET_OVER_VOLTAGE_PROTECTION_THRESHOLD, ":VOLT:PROT?" },
+ { SCPI_CMD_SET_OVER_VOLTAGE_PROTECTION_THRESHOLD, ":VOLT:PROT %.6f" },
+ { SCPI_CMD_GET_OVER_CURRENT_PROTECTION_ENABLED, ":CURR:PROT:STAT?" },
+ { SCPI_CMD_SET_OVER_CURRENT_PROTECTION_ENABLE, ":CURR:PROT:STAT ON?"},
+ { SCPI_CMD_SET_OVER_CURRENT_PROTECTION_DISABLE, ":CURR:PROT:STAT OFF?"},
+ /* Current limit (CC mode) and OCP are set using the same command. */
+ { SCPI_CMD_GET_OVER_CURRENT_PROTECTION_THRESHOLD, ":SOUR:CURR?" },
+ { SCPI_CMD_SET_OVER_CURRENT_PROTECTION_THRESHOLD, ":SOUR:CURR %.6f" },
+ ALL_ZERO
+};
+
+/* BK Precision 9130 series */
+static const uint32_t bk_9130_devopts[] = {
+ SR_CONF_CONTINUOUS,
+ SR_CONF_LIMIT_SAMPLES | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_LIMIT_MSEC | SR_CONF_GET | SR_CONF_SET,
+};
+
+static const uint32_t bk_9130_devopts_cg[] = {
+ SR_CONF_OVER_VOLTAGE_PROTECTION_THRESHOLD | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_VOLTAGE | SR_CONF_GET,
+ SR_CONF_VOLTAGE_TARGET | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_CURRENT | SR_CONF_GET,
+ SR_CONF_CURRENT_LIMIT | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_ENABLED | SR_CONF_GET | SR_CONF_SET,
+};
+
+static const struct channel_spec bk_9130_ch[] = {
+ { "1", { 0, 30, 0.001, 3, 3 }, { 0, 3, 0.001, 3, 3 }, { 0, 90, 0, 3, 3 }, FREQ_DC_ONLY, NO_OVP_LIMITS, NO_OCP_LIMITS },
+ { "2", { 0, 30, 0.001, 3, 3 }, { 0, 3, 0.001, 3, 3 }, { 0, 90, 0, 3, 3 }, FREQ_DC_ONLY, NO_OVP_LIMITS, NO_OCP_LIMITS },
+ { "3", { 0, 5, 0.001, 3, 3 }, { 0, 3, 0.001, 3, 3 }, { 0, 15, 0, 3, 3 }, FREQ_DC_ONLY, NO_OVP_LIMITS, NO_OCP_LIMITS },
+};
+
+static const struct channel_group_spec bk_9130_cg[] = {
+ { "1", CH_IDX(0), PPS_OVP, SR_MQFLAG_DC },
+ { "2", CH_IDX(1), PPS_OVP, SR_MQFLAG_DC },
+ { "3", CH_IDX(2), PPS_OVP, SR_MQFLAG_DC },
+};
+
+static const struct scpi_command bk_9130_cmd[] = {
+ { SCPI_CMD_REMOTE, "SYST:REMOTE" },
+ { SCPI_CMD_LOCAL, "SYST:LOCAL" },
+ { SCPI_CMD_SELECT_CHANNEL, ":INST:NSEL %s" },
+ { SCPI_CMD_GET_MEAS_VOLTAGE, ":MEAS:VOLT?" },
+ { SCPI_CMD_GET_MEAS_CURRENT, ":MEAS:CURR?" },
+ { SCPI_CMD_GET_MEAS_POWER, ":MEAS:POWER?" },
+ { SCPI_CMD_GET_VOLTAGE_TARGET, ":SOUR:VOLT?" },
+ { SCPI_CMD_SET_VOLTAGE_TARGET, ":SOUR:VOLT %.6f" },
+ { SCPI_CMD_GET_CURRENT_LIMIT, ":SOUR:CURR?" },
+ { SCPI_CMD_SET_CURRENT_LIMIT, ":SOUR:CURR %.6f" },
+ { SCPI_CMD_GET_OUTPUT_ENABLED, ":OUTP?" },
+ { SCPI_CMD_SET_OUTPUT_ENABLE, ":OUTP 1" },
+ { SCPI_CMD_SET_OUTPUT_DISABLE, ":OUTP 0" },
+ { SCPI_CMD_GET_OVER_VOLTAGE_PROTECTION_THRESHOLD, ":SOUR:VOLT:PROT?" },
+ { SCPI_CMD_SET_OVER_VOLTAGE_PROTECTION_THRESHOLD, ":SOUR:VOLT:PROT %.6f" },
+ ALL_ZERO
+};
+
+/* Chroma 61600 series AC source */
+static const uint32_t chroma_61604_devopts[] = {
+ SR_CONF_CONTINUOUS,
+ SR_CONF_LIMIT_SAMPLES | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_LIMIT_MSEC | SR_CONF_GET | SR_CONF_SET,
+};
+
+static const uint32_t chroma_61604_devopts_cg[] = {
+ SR_CONF_OVER_VOLTAGE_PROTECTION_THRESHOLD | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_OVER_CURRENT_PROTECTION_THRESHOLD | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_VOLTAGE | SR_CONF_GET,
+ SR_CONF_VOLTAGE_TARGET | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_OUTPUT_FREQUENCY | SR_CONF_GET,
+ SR_CONF_OUTPUT_FREQUENCY_TARGET | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_CURRENT | SR_CONF_GET,
+ SR_CONF_ENABLED | SR_CONF_GET | SR_CONF_SET,
+};
+
+static const struct channel_spec chroma_61604_ch[] = {
+ { "1", { 0, 300, 0.1, 1, 1 }, { 0, 16, 0.1, 2, 2 }, { 0, 2000, 0, 1, 1 }, { 1.0, 1000.0, 0.01 }, NO_OVP_LIMITS, NO_OCP_LIMITS },
+};
+
+static const struct channel_group_spec chroma_61604_cg[] = {
+ { "1", CH_IDX(0), PPS_OVP | PPS_OCP, SR_MQFLAG_AC },
+};
+
+static const struct scpi_command chroma_61604_cmd[] = {
+ { SCPI_CMD_REMOTE, "SYST:REM" },
+ { SCPI_CMD_LOCAL, "SYST:LOC" },
+ { SCPI_CMD_GET_MEAS_VOLTAGE, ":FETC:VOLT:ACDC?" },
+ { SCPI_CMD_GET_MEAS_FREQUENCY, ":FETC:FREQ?" },
+ { SCPI_CMD_GET_MEAS_CURRENT, ":FETC:CURR:AC?" },
+ { SCPI_CMD_GET_MEAS_POWER, ":FETC:POW:AC?" },
+ { SCPI_CMD_GET_VOLTAGE_TARGET, ":SOUR:VOLT:AC?" },
+ { SCPI_CMD_SET_VOLTAGE_TARGET, ":SOUR:VOLT:AC %.1f" },
+ { SCPI_CMD_GET_FREQUENCY_TARGET, ":SOUR:FREQ?" },
+ { SCPI_CMD_SET_FREQUENCY_TARGET, ":SOUR:FREQ %.2f" },
+ { SCPI_CMD_GET_OUTPUT_ENABLED, ":OUTP?" },
+ { SCPI_CMD_SET_OUTPUT_ENABLE, ":OUTP ON" },
+ { SCPI_CMD_SET_OUTPUT_DISABLE, ":OUTP OFF" },
+ { SCPI_CMD_GET_OVER_VOLTAGE_PROTECTION_THRESHOLD, ":SOUR:VOLT:LIM:AC?" },
+ { SCPI_CMD_SET_OVER_VOLTAGE_PROTECTION_THRESHOLD, ":SOUR:VOLT:LIM:AC %.1f" },
+ /* This is not a current limit mode. It is overcurrent protection. */
+ { SCPI_CMD_GET_OVER_CURRENT_PROTECTION_THRESHOLD, ":SOUR:CURR:LIM?" },
+ { SCPI_CMD_SET_OVER_CURRENT_PROTECTION_THRESHOLD, ":SOUR:CURR:LIM %.2f" },
+ ALL_ZERO
+};
+
+/* Chroma 62000 series DC source */
+static const uint32_t chroma_62000_devopts[] = {
+ SR_CONF_CONTINUOUS,
+ SR_CONF_LIMIT_SAMPLES | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_LIMIT_MSEC | SR_CONF_GET | SR_CONF_SET,
+};
+
+static const uint32_t chroma_62000_devopts_cg[] = {
+ SR_CONF_OVER_VOLTAGE_PROTECTION_THRESHOLD | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_OVER_CURRENT_PROTECTION_THRESHOLD | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_VOLTAGE | SR_CONF_GET,
+ SR_CONF_VOLTAGE_TARGET | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_CURRENT | SR_CONF_GET,
+ SR_CONF_CURRENT_LIMIT | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_ENABLED | SR_CONF_GET | SR_CONF_SET,
+};
+
+static const struct channel_group_spec chroma_62000_cg[] = {
+ { "1", CH_IDX(0), PPS_OVP | PPS_OCP, SR_MQFLAG_DC },
+};
+
+static const struct scpi_command chroma_62000_cmd[] = {
+ { SCPI_CMD_REMOTE, ":CONF:REM ON" },
+ { SCPI_CMD_LOCAL, ":CONF:REM OFF" },
+ { SCPI_CMD_BEEPER, ":CONF:BEEP?" },
+ { SCPI_CMD_BEEPER_ENABLE, ":CONF:BEEP ON" },
+ { SCPI_CMD_BEEPER_DISABLE, ":CONF:BEEP OFF" },
+ { SCPI_CMD_GET_MEAS_VOLTAGE, ":MEAS:VOLT?" },
+ { SCPI_CMD_GET_MEAS_CURRENT, ":MEAS:CURR?" },
+ { SCPI_CMD_GET_MEAS_POWER, ":MEAS:POW?" },
+ { SCPI_CMD_GET_VOLTAGE_TARGET, ":SOUR:VOLT?" },
+ { SCPI_CMD_SET_VOLTAGE_TARGET, ":SOUR:VOLT %.2f" },
+ { SCPI_CMD_GET_CURRENT_LIMIT, ":SOUR:CURR?" },
+ { SCPI_CMD_SET_CURRENT_LIMIT, ":SOUR:CURR %.6f" },
+ { SCPI_CMD_GET_OUTPUT_ENABLED, ":CONF:OUTP?" },
+ { SCPI_CMD_SET_OUTPUT_ENABLE, ":CONF:OUTP ON" },
+ { SCPI_CMD_SET_OUTPUT_DISABLE, ":CONF:OUTP OFF" },
+ { SCPI_CMD_GET_OVER_VOLTAGE_PROTECTION_THRESHOLD, ":SOUR:VOLT:PROT:HIGH?" },
+ { SCPI_CMD_SET_OVER_VOLTAGE_PROTECTION_THRESHOLD, ":SOUR:VOLT:PROT:HIGH %.6f" },
+ { SCPI_CMD_GET_OVER_CURRENT_PROTECTION_THRESHOLD, ":SOUR:CURR:PROT:HIGH?" },
+ { SCPI_CMD_SET_OVER_CURRENT_PROTECTION_THRESHOLD, ":SOUR:CURR:PROT:HIGH %.6f" },
+ ALL_ZERO
};
-const char *get_vendor(const char *raw_vendor)
+static int chroma_62000p_probe_channels(struct sr_dev_inst *sdi,
+ struct sr_scpi_hw_info *hw_info,
+ struct channel_spec **channels, unsigned int *num_channels,
+ struct channel_group_spec **channel_groups,
+ unsigned int *num_channel_groups)
{
- unsigned int i;
+ unsigned int volts, amps, watts;
+ struct channel_spec *channel;
+
+ (void)sdi;
+
+ sscanf(hw_info->model, "620%uP-%u-%u", &watts, &volts, &s);
+ watts *= 100;
+ sr_dbg("Found device rated for %d V, %d A and %d W", volts, amps, watts);
+
+ if (volts > 600) {
+ sr_err("Probed max voltage of %u V is out of spec.", volts);
+ return SR_ERR_BUG;
+ }
+
+ if (amps > 120) {
+ sr_err("Probed max current of %u A is out of spec.", amps);
+ return SR_ERR_BUG;
+ }
+
+ if (watts > 5000) {
+ sr_err("Probed max power of %u W is out of spec.", watts);
+ return SR_ERR_BUG;
+ }
+
+ channel = g_malloc0(sizeof(struct channel_spec));
+ channel->name = "1";
+ channel->voltage[0] = channel->current[0] = channel->power[0] = 0.0;
+ channel->voltage[1] = volts;
+ channel->current[1] = amps;
+ channel->power[1] = watts;
+ channel->voltage[2] = channel->current[2] = 0.01;
+ channel->voltage[3] = channel->voltage[4] = 3;
+ channel->current[3] = channel->current[4] = 4;
+ *channels = channel;
+ *num_channels = 1;
+
+ *channel_groups = g_malloc(sizeof(struct channel_group_spec));
+ **channel_groups = chroma_62000_cg[0];
+ *num_channel_groups = 1;
+
+ return SR_OK;
+}
+
+/* Envox EEZ PSU Series */
+static const uint32_t eez_psu_devopts[] = {
+ SR_CONF_CONTINUOUS,
+ SR_CONF_LIMIT_SAMPLES | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_LIMIT_MSEC | SR_CONF_GET | SR_CONF_SET,
+};
+
+static const uint32_t eez_psu_devopts_cg[] = {
+ SR_CONF_VOLTAGE | SR_CONF_GET,
+ SR_CONF_VOLTAGE_TARGET | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_CURRENT | SR_CONF_GET,
+ SR_CONF_CURRENT_LIMIT | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_ENABLED | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_REGULATION | SR_CONF_GET,
+ SR_CONF_OVER_VOLTAGE_PROTECTION_ACTIVE | SR_CONF_GET,
+ SR_CONF_OVER_VOLTAGE_PROTECTION_THRESHOLD | SR_CONF_GET,
+ SR_CONF_OVER_CURRENT_PROTECTION_ACTIVE | SR_CONF_GET,
+ SR_CONF_OVER_CURRENT_PROTECTION_THRESHOLD | SR_CONF_GET,
+};
+
+static const struct scpi_command eez_psu_cmd[] = {
+ { SCPI_CMD_REMOTE, "SYST:REMOTE" },
+ { SCPI_CMD_LOCAL, "SYST:LOCAL" },
+ { SCPI_CMD_SELECT_CHANNEL, ":INST:NSEL %s" },
+ { SCPI_CMD_GET_MEAS_VOLTAGE, ":MEAS:VOLT?" },
+ { SCPI_CMD_GET_MEAS_CURRENT, ":MEAS:CURR?" },
+ { SCPI_CMD_GET_MEAS_POWER, ":MEAS:POWER?" },
+ { SCPI_CMD_GET_OUTPUT_REGULATION, ":OUTP:MODE?" },
+ { SCPI_CMD_GET_VOLTAGE_TARGET, ":SOUR:VOLT?" },
+ { SCPI_CMD_SET_VOLTAGE_TARGET, ":SOUR:VOLT %.2f" },
+ { SCPI_CMD_GET_CURRENT_LIMIT, ":SOUR:CURR?" },
+ { SCPI_CMD_SET_CURRENT_LIMIT, ":SOUR:CURR %.6f" },
+ { SCPI_CMD_GET_OUTPUT_ENABLED, ":OUTP?" },
+ { SCPI_CMD_SET_OUTPUT_ENABLE, ":OUTP ON" },
+ { SCPI_CMD_SET_OUTPUT_DISABLE, ":OUTP OFF" },
+ { SCPI_CMD_GET_OVER_CURRENT_PROTECTION_THRESHOLD, ":SOUR:CURR:PROT?" },
+ { SCPI_CMD_GET_OVER_VOLTAGE_PROTECTION_THRESHOLD, ":SOUR:VOLT:PROT?" },
+ ALL_ZERO
+};
+
+/*
+ * The EEZ BB3 protocol currently specifies up to six channels. The older
+ * EEZ PSU design only has room for two in its enclosure design.
+ *
+ * If a future model's SCPI spec allows more than six models then we can
+ * extend this to support more.
+ */
+static const char *eez_psu_channel_names[] = { "1", "2", "3", "4", "5", "6", };
+
+static int eez_psu_probe_channels(struct sr_dev_inst *sdi,
+ struct sr_scpi_hw_info *hw_info,
+ struct channel_spec **channels, unsigned int *num_channels,
+ struct channel_group_spec **channel_groups,
+ unsigned int *num_channel_groups)
+{
+ struct sr_scpi_dev_inst *scpi;
+ int ret, intval;
+ size_t i, channel_count;
+ double limit_val;
+ const char *channel_name;
+
+ /*
+ * The EEZ PSU family is intended by the designer to be end-user
+ * customizable, so this is intentionally a little more dynamic
+ * than strictly necessary for the "stock" models, to make it
+ * more likely to automatically support end-user upgrades of the
+ * various ranges.
+ *
+ * The BB3 in particular supports various different modular
+ * power supply frontends that offer different voltage/current
+ * limits and different numbers of independent channels, such as
+ * three PSU modules that have two channels each for a total of
+ * six controllable channels.
+ *
+ * This currently supports both the original EEZ PSU design
+ * (H24005, when in its stock build configuration) and the
+ * successor EEZ BB3 design.
+ */
+
+ scpi = sdi->conn;
+ ret = sr_scpi_get_int(scpi, ":SYST:CHAN:COUN?", &intval);
+ if (ret != SR_OK) {
+ sr_err("Failed to probe EEZ PSU channel count.");
+ return ret;
+ }
+ if (intval < 0) {
+ sr_err("Suspicious channel count %d, ignoring.", intval);
+ return SR_ERR_DATA;
+ }
+ channel_count = intval;
+ if (channel_count > ARRAY_SIZE(eez_psu_channel_names)) {
+ /*
+ * No known EEZ PSU specifies more than six channels at
+ * the time of writing, so it would be weird to get here
+ * but we'll allow it to be robust.
+ */
+ sr_warn("Only using first %zu of %zu EEZ PSU channels.",
+ channel_count, ARRAY_SIZE(eez_psu_channel_names));
+ channel_count = ARRAY_SIZE(eez_psu_channel_names);
+ }
+
+ sr_spew("EEZ PSU (%s) has channel count %zu.",
+ hw_info->model, channel_count);
+
+ *channels = g_malloc0(sizeof(**channels) * channel_count);
+ *channel_groups = g_malloc0(sizeof(**channel_groups) * channel_count);
+ for (i = 0; i < channel_count; i++) {
+ channel_name = eez_psu_channel_names[i];
+
+ /*
+ * Select the channel to prepare for our various "get"
+ * calls below.
+ */
+ ret = sr_scpi_send(scpi, ":INST:NSEL %s", channel_name);
+ if (ret != SR_OK) {
+ sr_err("Failed to select %s to retrieve its limits.",
+ channel_name);
+ return ret;
+ }
+
+ (*channel_groups)[i].name = channel_name;
+ (*channel_groups)[i].channel_index_mask = CH_IDX(i);
+ (*channel_groups)[i].features = PPS_OVP | PPS_OCP;
+ (*channel_groups)[i].mqflags = SR_MQFLAG_DC;
+
+ (*channels)[i].name = channel_name;
- for (i = 0; i < ARRAY_SIZE(pps_vendors); i++) {
- if (!strcasecmp(raw_vendor, pps_vendors[i][0]))
- return pps_vendors[i][1];
+ ret = sr_scpi_get_double(scpi,
+ ":SYST:CHAN:INFO:CURR?", &limit_val);
+ if (ret != SR_OK) {
+ sr_err("Failed to read the current limit for %s.",
+ channel_name);
+ return ret;
+ }
+ (*channels)[i].current[0] = 0.0;
+ (*channels)[i].current[1] = limit_val;
+ (*channels)[i].current[2] = 0.01; /* Programming resolution. */
+ (*channels)[i].current[3] = 2; /* Spec digits. */
+ (*channels)[i].current[4] = 2; /* Encoding digits. */
+
+ ret = sr_scpi_get_double(scpi,
+ ":SYST:CHAN:INFO:VOLT?", &limit_val);
+ if (ret != SR_OK) {
+ sr_err("Failed to read the voltage limit for %s.",
+ channel_name);
+ return ret;
+ }
+ (*channels)[i].voltage[0] = 0.0;
+ (*channels)[i].voltage[1] = limit_val;
+ (*channels)[i].voltage[2] = 0.01; /* Programming resolution. */
+ (*channels)[i].voltage[3] = 2; /* Spec digits. */
+ (*channels)[i].voltage[4] = 2; /* Encoding digits. */
+
+ ret = sr_scpi_get_double(scpi,
+ ":SYST:CHAN:INFO:POW?", &limit_val);
+ if (ret != SR_OK) {
+ sr_err("Failed to read the power limit for %s.",
+ channel_name);
+ return ret;
+ }
+ (*channels)[i].power[0] = 0.0;
+ (*channels)[i].power[1] = limit_val;
+ (*channels)[i].power[2] = 0.01; /* Programming resolution. */
+ (*channels)[i].power[3] = 2; /* Spec digits. */
+ (*channels)[i].power[4] = 2; /* Encoding digits. */
}
+ *num_channels = *num_channel_groups = channel_count;
- return raw_vendor;
+ return SR_OK;
}
-static const uint32_t devopts_none[] = { };
+/* Rigol DP700 series */
+static const uint32_t rigol_dp700_devopts[] = {
+ SR_CONF_CONTINUOUS,
+ SR_CONF_LIMIT_SAMPLES | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_LIMIT_MSEC | SR_CONF_GET | SR_CONF_SET,
+};
+
+static const uint32_t rigol_dp700_devopts_cg[] = {
+ SR_CONF_REGULATION | SR_CONF_GET,
+ SR_CONF_OVER_VOLTAGE_PROTECTION_ENABLED | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_OVER_VOLTAGE_PROTECTION_ACTIVE | SR_CONF_GET,
+ SR_CONF_OVER_VOLTAGE_PROTECTION_THRESHOLD | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_OVER_CURRENT_PROTECTION_ENABLED | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_OVER_CURRENT_PROTECTION_ACTIVE | SR_CONF_GET,
+ SR_CONF_OVER_CURRENT_PROTECTION_THRESHOLD | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_VOLTAGE | SR_CONF_GET,
+ SR_CONF_VOLTAGE_TARGET | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_CURRENT | SR_CONF_GET,
+ SR_CONF_CURRENT_LIMIT | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_ENABLED | SR_CONF_GET | SR_CONF_SET,
+};
+
+static const struct channel_spec rigol_dp711_ch[] = {
+ { "1", { 0, 30, 0.01, 3, 3 }, { 0, 5, 0.01, 3, 3 }, { 0, 150, 0, 3, 3 }, FREQ_DC_ONLY, { 0.01, 33, 0.01}, { 0.01, 5.5, 0.01 } },
+};
+
+static const struct channel_spec rigol_dp712_ch[] = {
+ { "1", { 0, 50, 0.01, 3, 3 }, { 0, 3, 0.01, 3, 3 }, { 0, 150, 0, 3, 3 }, FREQ_DC_ONLY, { 0.01, 55, 0.01}, { 0.01, 3.3, 0.01 } },
+};
+
+static const struct channel_group_spec rigol_dp700_cg[] = {
+ { "1", CH_IDX(0), PPS_OVP | PPS_OCP, SR_MQFLAG_DC },
+};
+
+/* Same as the DP800 series, except for the missing :SYST:OTP* commands. */
+static const struct scpi_command rigol_dp700_cmd[] = {
+ { SCPI_CMD_REMOTE, "SYST:REMOTE" },
+ { SCPI_CMD_LOCAL, "SYST:LOCAL" },
+ { SCPI_CMD_BEEPER, "SYST:BEEP:STAT?" },
+ { SCPI_CMD_BEEPER_ENABLE, "SYST:BEEP:STAT ON" },
+ { SCPI_CMD_BEEPER_DISABLE, "SYST:BEEP:STAT OFF" },
+ { SCPI_CMD_SELECT_CHANNEL, ":INST:NSEL %s" },
+ { SCPI_CMD_GET_MEAS_VOLTAGE, ":MEAS:VOLT?" },
+ { SCPI_CMD_GET_MEAS_CURRENT, ":MEAS:CURR?" },
+ { SCPI_CMD_GET_MEAS_POWER, ":MEAS:POWE?" },
+ { SCPI_CMD_GET_VOLTAGE_TARGET, ":SOUR:VOLT?" },
+ { SCPI_CMD_SET_VOLTAGE_TARGET, ":SOUR:VOLT %.6f" },
+ { SCPI_CMD_GET_CURRENT_LIMIT, ":SOUR:CURR?" },
+ { SCPI_CMD_SET_CURRENT_LIMIT, ":SOUR:CURR %.6f" },
+ { SCPI_CMD_GET_OUTPUT_ENABLED, ":OUTP?" },
+ { SCPI_CMD_SET_OUTPUT_ENABLE, ":OUTP ON" },
+ { SCPI_CMD_SET_OUTPUT_DISABLE, ":OUTP OFF" },
+ { SCPI_CMD_GET_OUTPUT_REGULATION, ":OUTP:MODE?" },
+ { SCPI_CMD_GET_OVER_VOLTAGE_PROTECTION_ENABLED, ":OUTP:OVP?" },
+ { SCPI_CMD_SET_OVER_VOLTAGE_PROTECTION_ENABLE, ":OUTP:OVP ON" },
+ { SCPI_CMD_SET_OVER_VOLTAGE_PROTECTION_DISABLE, ":OUTP:OVP OFF" },
+ { SCPI_CMD_GET_OVER_VOLTAGE_PROTECTION_ACTIVE, ":OUTP:OVP:QUES?" },
+ { SCPI_CMD_GET_OVER_VOLTAGE_PROTECTION_THRESHOLD, ":OUTP:OVP:VAL?" },
+ { SCPI_CMD_SET_OVER_VOLTAGE_PROTECTION_THRESHOLD, ":OUTP:OVP:VAL %.6f" },
+ { SCPI_CMD_GET_OVER_CURRENT_PROTECTION_ENABLED, ":OUTP:OCP?" },
+ { SCPI_CMD_SET_OVER_CURRENT_PROTECTION_ENABLE, ":OUTP:OCP:STAT ON" },
+ { SCPI_CMD_SET_OVER_CURRENT_PROTECTION_DISABLE, ":OUTP:OCP:STAT OFF" },
+ { SCPI_CMD_GET_OVER_CURRENT_PROTECTION_ACTIVE, ":OUTP:OCP:QUES?" },
+ { SCPI_CMD_GET_OVER_CURRENT_PROTECTION_THRESHOLD, ":OUTP:OCP:VAL?" },
+ { SCPI_CMD_SET_OVER_CURRENT_PROTECTION_THRESHOLD, ":OUTP:OCP:VAL %.6f" },
+ ALL_ZERO
+};
/* Rigol DP800 series */
static const uint32_t rigol_dp800_devopts[] = {
- SR_CONF_POWER_SUPPLY,
SR_CONF_CONTINUOUS,
SR_CONF_OVER_TEMPERATURE_PROTECTION | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_LIMIT_SAMPLES | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_LIMIT_MSEC | SR_CONF_GET | SR_CONF_SET,
};
static const uint32_t rigol_dp800_devopts_cg[] = {
- SR_CONF_OUTPUT_REGULATION | SR_CONF_GET,
+ SR_CONF_REGULATION | SR_CONF_GET,
SR_CONF_OVER_VOLTAGE_PROTECTION_ENABLED | SR_CONF_GET | SR_CONF_SET,
SR_CONF_OVER_VOLTAGE_PROTECTION_ACTIVE | SR_CONF_GET,
SR_CONF_OVER_VOLTAGE_PROTECTION_THRESHOLD | SR_CONF_GET | SR_CONF_SET,
SR_CONF_OVER_CURRENT_PROTECTION_ENABLED | SR_CONF_GET | SR_CONF_SET,
SR_CONF_OVER_CURRENT_PROTECTION_ACTIVE | SR_CONF_GET,
SR_CONF_OVER_CURRENT_PROTECTION_THRESHOLD | SR_CONF_GET | SR_CONF_SET,
- SR_CONF_OUTPUT_VOLTAGE | SR_CONF_GET,
- SR_CONF_OUTPUT_VOLTAGE_MAX | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
- SR_CONF_OUTPUT_CURRENT | SR_CONF_GET,
- SR_CONF_OUTPUT_CURRENT_MAX | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
- SR_CONF_OUTPUT_ENABLED | SR_CONF_GET | SR_CONF_SET,
-};
-
-struct channel_spec rigol_dp831_ch[] = {
- { "1", { 0, 8, 0.001 }, { 0, 5, 0.0003 } },
- { "2", { 0, 30, 0.001 }, { 0, 2, 0.0001 } },
- { "3", { 0, -30, 0.001 }, { 0, 2, 0.0001 } },
-};
-
-struct channel_spec rigol_dp832_ch[] = {
- { "1", { 0, 30, 0.001 }, { 0, 3, 0.001 } },
- { "2", { 0, 30, 0.001 }, { 0, 3, 0.001 } },
- { "3", { 0, 5, 0.001 }, { 0, 3, 0.001 } },
-};
-
-struct channel_group_spec rigol_dp800_cg[] = {
- { "1", CH_IDX(0), PPS_OVP | PPS_OCP },
- { "2", CH_IDX(1), PPS_OVP | PPS_OCP },
- { "3", CH_IDX(2), PPS_OVP | PPS_OCP },
-};
-
-struct scpi_command rigol_dp800_cmd[] = {
- { SCPI_CMD_KEY_UNLOCK, "SYST:KLOCK OFF" },
- { SCPI_CMD_GET_MEAS_VOLTAGE, ":MEAS:VOLT? CH%s" },
- { SCPI_CMD_GET_MEAS_CURRENT, ":MEAS:CURR? CH%s" },
- { SCPI_CMD_GET_MEAS_POWER, ":MEAS:POWE? CH%s" },
- { SCPI_CMD_GET_VOLTAGE_MAX, ":SOUR%s:VOLT?" },
- { SCPI_CMD_SET_VOLTAGE_MAX, ":SOUR%s:VOLT %.6f" },
- { SCPI_CMD_GET_CURRENT_MAX, ":SOUR%s:CURR?" },
- { SCPI_CMD_SET_CURRENT_MAX, ":SOUR%s:CURR %.6f" },
- { SCPI_CMD_GET_OUTPUT_ENABLED, ":OUTP? CH%s" },
- { SCPI_CMD_SET_OUTPUT_ENABLE, ":OUTP CH%s,ON" },
- { SCPI_CMD_SET_OUTPUT_DISABLE, ":OUTP CH%s,OFF" },
- { SCPI_CMD_GET_OUTPUT_REGULATION, ":OUTP:MODE? CH%s" },
+ SR_CONF_VOLTAGE | SR_CONF_GET,
+ SR_CONF_VOLTAGE_TARGET | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_CURRENT | SR_CONF_GET,
+ SR_CONF_CURRENT_LIMIT | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_ENABLED | SR_CONF_GET | SR_CONF_SET,
+};
+
+static const struct channel_spec rigol_dp821a_ch[] = {
+ { "1", { 0, 60, 0.001, 3, 3 }, { 0, 1, 0.0001, 4, 4 }, { 0, 60, 0, 3, 4 }, FREQ_DC_ONLY, NO_OVP_LIMITS, NO_OCP_LIMITS },
+ { "2", { 0, 8, 0.001, 3, 3 }, { 0, 10, 0.001, 3, 3 }, { 0, 80, 0, 3, 3 }, FREQ_DC_ONLY, NO_OVP_LIMITS, NO_OCP_LIMITS },
+};
+
+static const struct channel_spec rigol_dp831_ch[] = {
+ { "1", { 0, 8, 0.001, 3, 4 }, { 0, 5, 0.0003, 3, 4 }, { 0, 40, 0, 3, 4 }, FREQ_DC_ONLY, NO_OVP_LIMITS, NO_OCP_LIMITS },
+ { "2", { 0, 30, 0.001, 3, 4 }, { 0, 2, 0.0001, 3, 4 }, { 0, 60, 0, 3, 4 }, FREQ_DC_ONLY, NO_OVP_LIMITS, NO_OCP_LIMITS },
+ { "3", { 0, -30, 0.001, 3, 4 }, { 0, 2, 0.0001, 3, 4 }, { 0, 60, 0, 3, 4 }, FREQ_DC_ONLY, NO_OVP_LIMITS, NO_OCP_LIMITS },
+};
+
+static const struct channel_spec rigol_dp832_ch[] = {
+ { "1", { 0, 30, 0.001, 3, 4 }, { 0, 3, 0.001, 3, 4 }, { 0, 90, 0, 3, 4 }, FREQ_DC_ONLY, NO_OVP_LIMITS, NO_OCP_LIMITS },
+ { "2", { 0, 30, 0.001, 3, 4 }, { 0, 3, 0.001, 3, 4 }, { 0, 90, 0, 3, 4 }, FREQ_DC_ONLY, NO_OVP_LIMITS, NO_OCP_LIMITS },
+ { "3", { 0, 5, 0.001, 3, 4 }, { 0, 3, 0.001, 3, 4 }, { 0, 90, 0, 3, 4 }, FREQ_DC_ONLY, NO_OVP_LIMITS, NO_OCP_LIMITS },
+};
+
+static const struct channel_group_spec rigol_dp820_cg[] = {
+ { "1", CH_IDX(0), PPS_OVP | PPS_OCP, SR_MQFLAG_DC },
+ { "2", CH_IDX(1), PPS_OVP | PPS_OCP, SR_MQFLAG_DC },
+};
+
+static const struct channel_group_spec rigol_dp830_cg[] = {
+ { "1", CH_IDX(0), PPS_OVP | PPS_OCP, SR_MQFLAG_DC },
+ { "2", CH_IDX(1), PPS_OVP | PPS_OCP, SR_MQFLAG_DC },
+ { "3", CH_IDX(2), PPS_OVP | PPS_OCP, SR_MQFLAG_DC },
+};
+
+static const struct scpi_command rigol_dp800_cmd[] = {
+ { SCPI_CMD_REMOTE, "SYST:REMOTE" },
+ { SCPI_CMD_LOCAL, "SYST:LOCAL" },
+ { SCPI_CMD_BEEPER, "SYST:BEEP:STAT?" },
+ { SCPI_CMD_BEEPER_ENABLE, "SYST:BEEP:STAT ON" },
+ { SCPI_CMD_BEEPER_DISABLE, "SYST:BEEP:STAT OFF" },
+ { SCPI_CMD_SELECT_CHANNEL, ":INST:NSEL %s" },
+ { SCPI_CMD_GET_MEAS_VOLTAGE, ":MEAS:VOLT?" },
+ { SCPI_CMD_GET_MEAS_CURRENT, ":MEAS:CURR?" },
+ { SCPI_CMD_GET_MEAS_POWER, ":MEAS:POWE?" },
+ { SCPI_CMD_GET_VOLTAGE_TARGET, ":SOUR:VOLT?" },
+ { SCPI_CMD_SET_VOLTAGE_TARGET, ":SOUR:VOLT %.6f" },
+ { SCPI_CMD_GET_CURRENT_LIMIT, ":SOUR:CURR?" },
+ { SCPI_CMD_SET_CURRENT_LIMIT, ":SOUR:CURR %.6f" },
+ { SCPI_CMD_GET_OUTPUT_ENABLED, ":OUTP?" },
+ { SCPI_CMD_SET_OUTPUT_ENABLE, ":OUTP ON" },
+ { SCPI_CMD_SET_OUTPUT_DISABLE, ":OUTP OFF" },
+ { SCPI_CMD_GET_OUTPUT_REGULATION, ":OUTP:MODE?" },
{ SCPI_CMD_GET_OVER_TEMPERATURE_PROTECTION, ":SYST:OTP?" },
{ SCPI_CMD_SET_OVER_TEMPERATURE_PROTECTION_ENABLE, ":SYST:OTP ON" },
{ SCPI_CMD_SET_OVER_TEMPERATURE_PROTECTION_DISABLE, ":SYST:OTP OFF" },
- { SCPI_CMD_GET_OVER_VOLTAGE_PROTECTION_ENABLED, ":OUTP:OVP? CH%s" },
- { SCPI_CMD_SET_OVER_VOLTAGE_PROTECTION_ENABLE, ":OUTP:OVP CH%s,ON" },
- { SCPI_CMD_SET_OVER_VOLTAGE_PROTECTION_DISABLE, ":OUTP:OVP CH%s,OFF" },
- { SCPI_CMD_GET_OVER_VOLTAGE_PROTECTION_ACTIVE, ":OUTP:OVP:QUES? CH%s" },
- { SCPI_CMD_GET_OVER_VOLTAGE_PROTECTION_THRESHOLD, ":OUTP:OVP:VAL? CH%s" },
- { SCPI_CMD_SET_OVER_VOLTAGE_PROTECTION_THRESHOLD, ":OUTP:OVP:VAL CH%s,%.6f" },
- { SCPI_CMD_GET_OVER_CURRENT_PROTECTION_ENABLED, ":OUTP:OCP? CH%s" },
- { SCPI_CMD_SET_OVER_CURRENT_PROTECTION_ENABLE, ":OUTP:OCP CH%s,ON" },
- { SCPI_CMD_SET_OVER_CURRENT_PROTECTION_DISABLE, ":OUTP:OCP CH%s,OFF" },
- { SCPI_CMD_GET_OVER_CURRENT_PROTECTION_ACTIVE, ":OUTP:OCP:QUES? CH%s" },
- { SCPI_CMD_GET_OVER_CURRENT_PROTECTION_THRESHOLD, ":OUTP:OCP:VAL? CH%s" },
- { SCPI_CMD_SET_OVER_CURRENT_PROTECTION_THRESHOLD, ":OUTP:OCP:VAL CH%s,%.6f" },
-};
-
-/* HP 663xx series */
-static const uint32_t hp_6632b_devopts[] = {
- SR_CONF_POWER_SUPPLY,
+ { SCPI_CMD_GET_OVER_VOLTAGE_PROTECTION_ENABLED, ":OUTP:OVP?" },
+ { SCPI_CMD_SET_OVER_VOLTAGE_PROTECTION_ENABLE, ":OUTP:OVP ON" },
+ { SCPI_CMD_SET_OVER_VOLTAGE_PROTECTION_DISABLE, ":OUTP:OVP OFF" },
+ { SCPI_CMD_GET_OVER_VOLTAGE_PROTECTION_ACTIVE, ":OUTP:OVP:QUES?" },
+ { SCPI_CMD_GET_OVER_VOLTAGE_PROTECTION_THRESHOLD, ":OUTP:OVP:VAL?" },
+ { SCPI_CMD_SET_OVER_VOLTAGE_PROTECTION_THRESHOLD, ":OUTP:OVP:VAL %.6f" },
+ { SCPI_CMD_GET_OVER_CURRENT_PROTECTION_ENABLED, ":OUTP:OCP?" },
+ { SCPI_CMD_SET_OVER_CURRENT_PROTECTION_ENABLE, ":OUTP:OCP:STAT ON" },
+ { SCPI_CMD_SET_OVER_CURRENT_PROTECTION_DISABLE, ":OUTP:OCP:STAT OFF" },
+ { SCPI_CMD_GET_OVER_CURRENT_PROTECTION_ACTIVE, ":OUTP:OCP:QUES?" },
+ { SCPI_CMD_GET_OVER_CURRENT_PROTECTION_THRESHOLD, ":OUTP:OCP:VAL?" },
+ { SCPI_CMD_SET_OVER_CURRENT_PROTECTION_THRESHOLD, ":OUTP:OCP:VAL %.6f" },
+ ALL_ZERO
+};
+
+/* HP 663xA series */
+static const uint32_t hp_6630a_devopts[] = {
+ SR_CONF_CONTINUOUS,
+ SR_CONF_LIMIT_SAMPLES | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_LIMIT_MSEC | SR_CONF_GET | SR_CONF_SET,
+};
+
+static const uint32_t hp_6630a_devopts_cg[] = {
+ SR_CONF_ENABLED | SR_CONF_SET,
+ SR_CONF_VOLTAGE | SR_CONF_GET,
+ SR_CONF_CURRENT | SR_CONF_GET,
+ SR_CONF_VOLTAGE_TARGET | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_CURRENT_LIMIT | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_OVER_VOLTAGE_PROTECTION_ACTIVE | SR_CONF_GET,
+ SR_CONF_OVER_VOLTAGE_PROTECTION_THRESHOLD | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_OVER_CURRENT_PROTECTION_ENABLED | SR_CONF_SET,
+ SR_CONF_OVER_CURRENT_PROTECTION_ACTIVE | SR_CONF_GET,
+ SR_CONF_OVER_TEMPERATURE_PROTECTION_ACTIVE | SR_CONF_GET,
+ SR_CONF_REGULATION | SR_CONF_GET,
+};
+
+static const struct channel_spec hp_6632a_ch[] = {
+ { "1", { 0, 20.475, 0.005, 3, 4 }, { 0, 5.1188, 0.00125, 4, 5 }, { 0, 104.80743 }, FREQ_DC_ONLY, { 0, 22, 0.1 }, NO_OCP_LIMITS },
+};
+
+static const struct channel_spec hp_6633a_ch[] = {
+ { "1", { 0, 51.188, 0.0125, 3, 4 }, { 0, 2.0475, 0.0005, 4, 5 }, { 0, 104.80743 }, FREQ_DC_ONLY, { 0, 55, 0.25 }, NO_OCP_LIMITS },
+};
+
+static const struct channel_spec hp_6634a_ch[] = {
+ { "1", { 0, 102.38, 0.025, 3, 4 }, { 0, 1.0238, 0.00025, 4, 5 }, { 0, 104.81664 }, FREQ_DC_ONLY, { 0, 110, 0.5 }, NO_OCP_LIMITS },
+};
+
+static const struct channel_group_spec hp_6630a_cg[] = {
+ { "1", CH_IDX(0), PPS_OVP | PPS_OCP, SR_MQFLAG_DC },
+};
+
+static const struct scpi_command hp_6630a_cmd[] = {
+ { SCPI_CMD_SET_OUTPUT_ENABLE, "OUT 1" },
+ { SCPI_CMD_SET_OUTPUT_DISABLE, "OUT 0" },
+ { SCPI_CMD_GET_MEAS_VOLTAGE, "VOUT?" },
+ { SCPI_CMD_GET_MEAS_CURRENT, "IOUT?" },
+ { SCPI_CMD_SET_VOLTAGE_TARGET, "VSET %.4f" },
+ { SCPI_CMD_SET_CURRENT_LIMIT, "ISET %.4f" },
+ { SCPI_CMD_GET_OVER_VOLTAGE_PROTECTION_ACTIVE, "STS?" },
+ { SCPI_CMD_SET_OVER_VOLTAGE_PROTECTION_THRESHOLD, "OVSET %.4f" },
+ { SCPI_CMD_SET_OVER_CURRENT_PROTECTION_ENABLE, "OCP 1" },
+ { SCPI_CMD_SET_OVER_CURRENT_PROTECTION_DISABLE, "OCP 0" },
+ { SCPI_CMD_GET_OVER_CURRENT_PROTECTION_ACTIVE, "STS?" },
+ { SCPI_CMD_GET_OVER_TEMPERATURE_PROTECTION_ACTIVE, "STS?" },
+ { SCPI_CMD_GET_OUTPUT_REGULATION, "STS?" },
+ ALL_ZERO
+};
+
+static int hp_6630a_init_acquisition(const struct sr_dev_inst *sdi)
+{
+ struct sr_scpi_dev_inst *scpi;
+
+ scpi = sdi->conn;
+
+ /*
+ * Monitor CV (1), CC+ (2), UR (4), OVP (8), OTP (16), OCP (64) and
+ * CC- (256) bits of the Status Register for the FAULT? query.
+ */
+ return sr_scpi_send(scpi, "UNMASK 607");
+}
+
+static int hp_6630a_update_status(const struct sr_dev_inst *sdi)
+{
+ struct sr_scpi_dev_inst *scpi;
+ int ret;
+ int fault;
+ gboolean cv, cc_pos, unreg, cc_neg;
+ gboolean regulation_changed;
+ char *regulation;
+
+ scpi = sdi->conn;
+
+ /*
+ * Use the FAULT register (only 0->1 transitions), this way multiple set
+ * regulation bits in the STS/ASTS registers are ignored. In rare cases
+ * we will miss some changes (1->0 transitions, e.g. no regulation at all),
+ * but SPS/ASPS doesn't work either, unless all states are stored and
+ * compared to the states in STS/ASTS.
+ * TODO: Use SPoll or SRQ when SCPI over GPIB is used.
+ */
+ ret = sr_scpi_get_int(scpi, "FAULT?", &fault);
+ if (ret != SR_OK)
+ return ret;
+
+ /* OVP */
+ if (fault & (1 << 3))
+ sr_session_send_meta(sdi, SR_CONF_OVER_VOLTAGE_PROTECTION_ACTIVE,
+ g_variant_new_boolean(fault & (1 << 3)));
+
+ /* OCP */
+ if (fault & (1 << 6))
+ sr_session_send_meta(sdi, SR_CONF_OVER_CURRENT_PROTECTION_ACTIVE,
+ g_variant_new_boolean(fault & (1 << 6)));
+
+ /* OTP */
+ if (fault & (1 << 4))
+ sr_session_send_meta(sdi, SR_CONF_OVER_TEMPERATURE_PROTECTION_ACTIVE,
+ g_variant_new_boolean(fault & (1 << 4)));
+
+ /* CV */
+ cv = (fault & (1 << 0));
+ regulation_changed = (fault & (1 << 0));
+ /* CC+ */
+ cc_pos = (fault & (1 << 1));
+ regulation_changed = (fault & (1 << 1)) | regulation_changed;
+ /* UNREG */
+ unreg = (fault & (1 << 2));
+ regulation_changed = (fault & (1 << 2)) | regulation_changed;
+ /* CC- */
+ cc_neg = (fault & (1 << 9));
+ regulation_changed = (fault & (1 << 9)) | regulation_changed;
+
+ if (regulation_changed) {
+ if (cv && !cc_pos && !cc_neg && !unreg)
+ regulation = "CV";
+ else if (cc_pos && !cv && !cc_neg && !unreg)
+ regulation = "CC";
+ else if (cc_neg && !cv && !cc_pos && !unreg)
+ regulation = "CC-";
+ else if (unreg && !cv && !cc_pos && !cc_neg)
+ regulation = "UR";
+ else if (!cv && !cc_pos && !cc_neg && !unreg)
+ regulation = "";
+ else {
+ sr_dbg("Undefined regulation for HP 66xxA "
+ "(CV=%i, CC+=%i, CC-=%i, UR=%i).",
+ cv, cc_pos, cc_neg, unreg);
+ return FALSE;
+ }
+ sr_session_send_meta(sdi, SR_CONF_REGULATION,
+ g_variant_new_string(regulation));
+ }
+
+ return SR_OK;
+}
+
+/* HP 663xB series */
+static const uint32_t hp_6630b_devopts[] = {
SR_CONF_CONTINUOUS,
- SR_CONF_OUTPUT_ENABLED | SR_CONF_GET | SR_CONF_SET,
- SR_CONF_OUTPUT_VOLTAGE | SR_CONF_GET,
- SR_CONF_OUTPUT_CURRENT | SR_CONF_GET,
- SR_CONF_OUTPUT_VOLTAGE_MAX | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
- SR_CONF_OUTPUT_CURRENT_MAX | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_LIMIT_SAMPLES | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_LIMIT_MSEC | SR_CONF_GET | SR_CONF_SET,
+};
+
+static const uint32_t hp_6630b_devopts_cg[] = {
+ SR_CONF_ENABLED | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_VOLTAGE | SR_CONF_GET,
+ SR_CONF_CURRENT | SR_CONF_GET,
+ SR_CONF_VOLTAGE_TARGET | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_CURRENT_LIMIT | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_OVER_VOLTAGE_PROTECTION_ACTIVE | SR_CONF_GET,
+ SR_CONF_OVER_VOLTAGE_PROTECTION_THRESHOLD | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_OVER_CURRENT_PROTECTION_ENABLED | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_OVER_CURRENT_PROTECTION_ACTIVE | SR_CONF_GET,
+ SR_CONF_OVER_TEMPERATURE_PROTECTION_ACTIVE | SR_CONF_GET,
+ SR_CONF_REGULATION | SR_CONF_GET,
+};
+
+static const struct channel_spec hp_6611c_ch[] = {
+ { "1", { 0, 8.19, 0.002, 3, 4 }, { 0, 5.1188, 0.00125, 4, 5 }, { 0, 41.92297 }, FREQ_DC_ONLY, { 0, 12, 0.06 }, NO_OCP_LIMITS },
+};
+
+static const struct channel_spec hp_6612c_ch[] = {
+ { "1", { 0, 20.475, 0.005, 3, 4 }, { 0, 2.0475, 0.0005, 4, 5 }, { 0, 41.92256 }, FREQ_DC_ONLY, { 0, 22, 0.1 }, NO_OCP_LIMITS },
};
-struct channel_spec hp_6632b_ch[] = {
- { "1", { 0, 20.475, 0.005 }, { 0, 5.1188, 0.00132 } },
+static const struct channel_spec hp_6613c_ch[] = {
+ { "1", { 0, 51.188, 0.0125, 3, 4 }, { 0, 1.0238, 0.00025, 4, 5 }, { 0, 52.40627 }, FREQ_DC_ONLY, { 0, 55, 0.25 }, NO_OCP_LIMITS },
};
-struct channel_group_spec hp_6632b_cg[] = {
- { "1", CH_IDX(0), 0 },
+static const struct channel_spec hp_6614c_ch[] = {
+ { "1", { 0, 102.38, 0.025, 3, 4 }, { 0, 0.5118, 0.000125, 4, 5 }, { 0, 52.39808 }, FREQ_DC_ONLY, { 0, 110, 0.5 }, NO_OCP_LIMITS },
};
-struct scpi_command hp_6632b_cmd[] = {
+static const struct channel_spec hp_6631b_ch[] = {
+ { "1", { 0, 8.19, 0.002, 3, 4 }, { 0, 10.237, 0.00263, 4, 5 }, { 0, 83.84103 }, FREQ_DC_ONLY, { 0, 12, 0.06 }, NO_OCP_LIMITS },
+};
+
+static const struct channel_spec hp_6632b_ch[] = {
+ { "1", { 0, 20.475, 0.005, 3, 4 }, { 0, 5.1188, 0.00132, 4, 5 }, { 0, 104.80743 }, FREQ_DC_ONLY, { 0, 22, 0.1 }, NO_OCP_LIMITS },
+};
+
+static const struct channel_spec hp_66312a_ch[] = {
+ { "1", { 0, 20.475, 0.0001, 4, 5 }, { 0, 2.0475, 0.0001, 4, 5 }, { 0, 41.92256 }, FREQ_DC_ONLY, { 0, 22, 0.01 }, NO_OCP_LIMITS },
+};
+
+static const struct channel_spec hp_66332a_ch[] = {
+ { "1", { 0, 20.475, 0.005, 3, 4 }, { 0, 5.1188, 0.00132, 4, 5 }, { 0, 104.80743 }, FREQ_DC_ONLY, { 0, 22, 0.1 }, NO_OCP_LIMITS },
+};
+
+static const struct channel_spec hp_6633b_ch[] = {
+ { "1", { 0, 51.188, 0.0125, 3, 4 }, { 0, 2.0475, 0.000526, 4, 5 }, { 0, 104.80743 }, FREQ_DC_ONLY, { 0, 55, 0.25 }, NO_OCP_LIMITS },
+};
+
+static const struct channel_spec hp_6634b_ch[] = {
+ { "1", { 0, 102.38, 0.025, 3, 4 }, { 0, 1.0238, 0.000263, 4, 5 }, { 0, 104.81664 }, FREQ_DC_ONLY, { 0, 110, 0.5 }, NO_OCP_LIMITS },
+};
+
+static const struct channel_group_spec hp_6630b_cg[] = {
+ { "1", CH_IDX(0), PPS_OVP | PPS_OCP, SR_MQFLAG_DC },
+};
+
+static const struct scpi_command hp_6630b_cmd[] = {
+ /*
+ * SCPI_CMD_REMOTE and SCPI_CMD_LOCAL are not used when GPIB is used,
+ * otherwise the device will report (non critical) error 602.
+ */
+ { SCPI_CMD_REMOTE, "SYST:REM" },
+ { SCPI_CMD_LOCAL, "SYST:LOC" },
{ SCPI_CMD_GET_OUTPUT_ENABLED, "OUTP:STAT?" },
{ SCPI_CMD_SET_OUTPUT_ENABLE, "OUTP:STAT ON" },
{ SCPI_CMD_SET_OUTPUT_DISABLE, "OUTP:STAT OFF" },
{ SCPI_CMD_GET_MEAS_VOLTAGE, ":MEAS:VOLT?" },
{ SCPI_CMD_GET_MEAS_CURRENT, ":MEAS:CURR?" },
- { SCPI_CMD_GET_VOLTAGE_MAX, ":SOUR:VOLT?" },
- { SCPI_CMD_SET_VOLTAGE_MAX, ":SOUR:VOLT %.6f" },
- { SCPI_CMD_GET_CURRENT_MAX, ":SOUR:CURR?" },
- { SCPI_CMD_SET_CURRENT_MAX, ":SOUR:CURR %.6f" },
+ { SCPI_CMD_GET_VOLTAGE_TARGET, ":SOUR:VOLT?" },
+ { SCPI_CMD_SET_VOLTAGE_TARGET, ":SOUR:VOLT %.6f" },
+ { SCPI_CMD_GET_CURRENT_LIMIT, ":SOUR:CURR?" },
+ { SCPI_CMD_SET_CURRENT_LIMIT, ":SOUR:CURR %.6f" },
+ { SCPI_CMD_GET_OVER_CURRENT_PROTECTION_ENABLED, ":CURR:PROT:STAT?" },
+ { SCPI_CMD_SET_OVER_CURRENT_PROTECTION_ENABLE, ":CURR:PROT:STAT 1" },
+ { SCPI_CMD_SET_OVER_CURRENT_PROTECTION_DISABLE, ":CURR:PROT:STAT 0" },
+ { SCPI_CMD_GET_OVER_CURRENT_PROTECTION_ACTIVE, "STAT:QUES:COND?" },
+ { SCPI_CMD_GET_OVER_VOLTAGE_PROTECTION_ACTIVE, "STAT:QUES:COND?" },
+ { SCPI_CMD_GET_OVER_VOLTAGE_PROTECTION_THRESHOLD, ":VOLT:PROT?" },
+ { SCPI_CMD_SET_OVER_VOLTAGE_PROTECTION_THRESHOLD, ":VOLT:PROT %.6f" },
+ { SCPI_CMD_GET_OVER_TEMPERATURE_PROTECTION_ACTIVE, "STAT:QUES:COND?" },
+ { SCPI_CMD_GET_OUTPUT_REGULATION, "STAT:OPER:COND?" },
+ ALL_ZERO
+};
+
+static int hp_6630b_init_acquisition(const struct sr_dev_inst *sdi)
+{
+ struct sr_scpi_dev_inst *scpi;
+ int ret;
+
+ scpi = sdi->conn;
+
+ /*
+ * Monitor CV (256), CC+ (1024) and CC- (2048) bits of the
+ * Operational Status Register.
+ * Use both positive and negative transitions of the status bits.
+ */
+ ret = sr_scpi_send(scpi, "STAT:OPER:PTR 3328;NTR 3328;ENAB 3328");
+ if (ret != SR_OK)
+ return ret;
+
+ /*
+ * Monitor OVP (1), OCP (2), OTP (16) and Unreg (1024) bits of the
+ * Questionable Status Register.
+ * Use both positive and negative transitions of the status bits.
+ */
+ ret = sr_scpi_send(scpi, "STAT:QUES:PTR 1043;NTR 1043;ENAB 1043");
+ if (ret != SR_OK)
+ return ret;
+
+ /*
+ * Service Request Enable Register set for Operational Status Register
+ * bits (128) and Questionable Status Register bits (8).
+ * This masks the Status Register generating a SRQ/RQS. Not implemented yet!
+ */
+ /*
+ ret = sr_scpi_send(scpi, "*SRE 136");
+ if (ret != SR_OK)
+ return ret;
+ */
+
+ return SR_OK;
+}
+
+static int hp_6630b_update_status(const struct sr_dev_inst *sdi)
+{
+ struct sr_scpi_dev_inst *scpi;
+ int ret;
+ int stb;
+ int ques_even, ques_cond;
+ int oper_even, oper_cond;
+ gboolean output_enabled;
+ gboolean unreg, cv, cc_pos, cc_neg;
+ gboolean regulation_changed;
+ char *regulation;
+
+ scpi = sdi->conn;
+
+ unreg = FALSE;
+ cv = FALSE;
+ cc_pos = FALSE;
+ cc_neg = FALSE;
+ regulation_changed = FALSE;
+
+ /*
+ * Use SPoll when SCPI uses GPIB as transport layer.
+ * SPoll is approx. twice as fast as a normal GPIB write + read would be!
+ */
+#ifdef HAVE_LIBGPIB
+ char spoll_buf;
+
+ if (scpi->transport == SCPI_TRANSPORT_LIBGPIB) {
+ ret = sr_scpi_gpib_spoll(scpi, &spoll_buf);
+ if (ret != SR_OK)
+ return ret;
+ stb = (uint8_t)spoll_buf;
+ }
+ else {
+#endif
+ ret = sr_scpi_get_int(scpi, "*STB?", &stb);
+ if (ret != SR_OK)
+ return ret;
+#ifdef HAVE_LIBGPIB
+ }
+#endif
+
+ /* Questionable status summary bit */
+ if (stb & (1 << 3)) {
+ /* Read the event register to clear it! */
+ ret = sr_scpi_get_int(scpi, "STAT:QUES:EVEN?", &ques_even);
+ if (ret != SR_OK)
+ return ret;
+ /* Now get the values. */
+ ret = sr_scpi_get_int(scpi, "STAT:QUES:COND?", &ques_cond);
+ if (ret != SR_OK)
+ return ret;
+
+ /* OVP */
+ if (ques_even & (1 << 0))
+ sr_session_send_meta(sdi, SR_CONF_OVER_VOLTAGE_PROTECTION_ACTIVE,
+ g_variant_new_boolean(ques_cond & (1 << 0)));
+
+ /* OCP */
+ if (ques_even & (1 << 1))
+ sr_session_send_meta(sdi, SR_CONF_OVER_CURRENT_PROTECTION_ACTIVE,
+ g_variant_new_boolean(ques_cond & (1 << 1)));
+
+ /* OTP */
+ if (ques_even & (1 << 4))
+ sr_session_send_meta(sdi, SR_CONF_OVER_TEMPERATURE_PROTECTION_ACTIVE,
+ g_variant_new_boolean(ques_cond & (1 << 4)));
+
+ /* UNREG */
+ unreg = (ques_cond & (1 << 10));
+ regulation_changed = (ques_even & (1 << 10)) | regulation_changed;
+
+ /*
+ * Check if output state has changed, due to one of the
+ * questionable states changed.
+ * NOTE: The output state is sent even if it hasn't changed,
+ * but that only happens rarely.
+ */
+ ret = sr_scpi_get_bool(scpi, "OUTP:STAT?", &output_enabled);
+ if (ret != SR_OK)
+ return ret;
+ sr_session_send_meta(sdi, SR_CONF_ENABLED,
+ g_variant_new_boolean(output_enabled));
+ }
+
+ /* Operation status summary bit */
+ if (stb & (1 << 7)) {
+ /* Read the event register to clear it! */
+ ret = sr_scpi_get_int(scpi, "STAT:OPER:EVEN?", &oper_even);
+ if (ret != SR_OK)
+ return ret;
+ /* Now get the values. */
+ ret = sr_scpi_get_int(scpi, "STAT:OPER:COND?", &oper_cond);
+ if (ret != SR_OK)
+ return ret;
+
+ /* CV */
+ cv = (oper_cond & (1 << 8));
+ regulation_changed = (oper_even & (1 << 8)) | regulation_changed;
+ /* CC+ */
+ cc_pos = (oper_cond & (1 << 10));
+ regulation_changed = (oper_even & (1 << 10)) | regulation_changed;
+ /* CC- */
+ cc_neg = (oper_cond & (1 << 11));
+ regulation_changed = (oper_even & (1 << 11)) | regulation_changed;
+ }
+
+ if (regulation_changed) {
+ if (cv && !cc_pos && !cc_neg && !unreg)
+ regulation = "CV";
+ else if (cc_pos && !cv && !cc_neg && !unreg)
+ regulation = "CC";
+ else if (cc_neg && !cv && !cc_pos && !unreg)
+ regulation = "CC-";
+ else if (unreg && !cv && !cc_pos && !cc_neg)
+ regulation = "UR";
+ else if (!cv && !cc_pos && !cc_neg && !unreg)
+ /* This happens in case of OCP active. */
+ regulation = "";
+ else {
+ /* This happens from time to time (CV and CC+ active). */
+ sr_dbg("Undefined regulation for HP 66xxB "
+ "(CV=%i, CC+=%i, CC-=%i, UR=%i).",
+ cv, cc_pos, cc_neg, unreg);
+ return FALSE;
+ }
+ sr_session_send_meta(sdi, SR_CONF_REGULATION,
+ g_variant_new_string(regulation));
+ }
+
+ return SR_OK;
+}
+
+/* Owon P4000 series */
+static const uint32_t owon_p4000_devopts[] = {
+ SR_CONF_CONTINUOUS,
+ SR_CONF_LIMIT_SAMPLES | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_LIMIT_MSEC | SR_CONF_GET | SR_CONF_SET
+};
+
+static const uint32_t owon_p4000_devopts_cg[] = {
+ SR_CONF_ENABLED | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_VOLTAGE | SR_CONF_GET,
+ SR_CONF_VOLTAGE_TARGET | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_CURRENT | SR_CONF_GET,
+ SR_CONF_CURRENT_LIMIT | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_OVER_VOLTAGE_PROTECTION_THRESHOLD | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_OVER_CURRENT_PROTECTION_THRESHOLD | SR_CONF_GET | SR_CONF_SET,
+};
+
+static const struct channel_spec owon_p4603_ch[] = {
+ { "1", { 0.01, 60, 0.001, 3, 3 }, { 0.001, 3, 0.001, 3, 3 }, { 0, 180, 0, 3, 3 }, FREQ_DC_ONLY, { 0.01, 61, 0.001}, { 0.001, 3.1, 0.001} },
+};
+
+static const struct channel_spec owon_p4305_ch[] = {
+ { "1", { 0.01, 30, 0.001, 3, 3 }, { 0.001, 5, 0.001, 3, 3 }, { 0, 180, 0, 3, 3 }, FREQ_DC_ONLY, { 0.01, 31, 0.001}, { 0.001, 3.1, 0.001} },
+};
+
+static const struct channel_group_spec owon_p4000_cg[] = {
+ { "1", CH_IDX(0), PPS_OVP | PPS_OCP, SR_MQFLAG_DC },
+};
+
+static const struct scpi_command owon_p4000_cmd[] = {
+ { SCPI_CMD_GET_MEAS_VOLTAGE, "MEAS:VOLT?" },
+ { SCPI_CMD_GET_MEAS_CURRENT, "MEAS:CURR?" },
+ { SCPI_CMD_GET_MEAS_POWER, "MEAS:POW?" },
+ { SCPI_CMD_GET_VOLTAGE_TARGET, "VOLT?" },
+ { SCPI_CMD_SET_VOLTAGE_TARGET, "VOLT %.6f" },
+ { SCPI_CMD_GET_CURRENT_LIMIT, "CURR?" },
+ { SCPI_CMD_SET_CURRENT_LIMIT, "CURR %.6f" },
+ { SCPI_CMD_GET_OUTPUT_ENABLED, "OUTP?" },
+ { SCPI_CMD_SET_OUTPUT_ENABLE, "OUTP 1" },
+ { SCPI_CMD_SET_OUTPUT_DISABLE, "OUTP 0" },
+ { SCPI_CMD_GET_OVER_VOLTAGE_PROTECTION_THRESHOLD, "VOLT:LIM?" },
+ { SCPI_CMD_SET_OVER_VOLTAGE_PROTECTION_THRESHOLD, "VOLT:LIM %.6f" },
+ { SCPI_CMD_GET_OVER_CURRENT_PROTECTION_THRESHOLD, "CURR:LIM?" },
+ { SCPI_CMD_SET_OVER_CURRENT_PROTECTION_THRESHOLD, "CURR:LIM %.6f" },
+ ALL_ZERO
+};
+
+/* Philips/Fluke PM2800 series */
+static const uint32_t philips_pm2800_devopts[] = {
+ SR_CONF_CONTINUOUS,
+ SR_CONF_LIMIT_SAMPLES | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_LIMIT_MSEC | SR_CONF_GET | SR_CONF_SET,
+};
+
+static const uint32_t philips_pm2800_devopts_cg[] = {
+ SR_CONF_ENABLED | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_VOLTAGE | SR_CONF_GET,
+ SR_CONF_VOLTAGE_TARGET | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_CURRENT | SR_CONF_GET,
+ SR_CONF_CURRENT_LIMIT | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_OVER_VOLTAGE_PROTECTION_ACTIVE | SR_CONF_GET,
+ SR_CONF_OVER_VOLTAGE_PROTECTION_THRESHOLD | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_OVER_CURRENT_PROTECTION_ENABLED | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_OVER_CURRENT_PROTECTION_ACTIVE | SR_CONF_GET,
+ SR_CONF_REGULATION | SR_CONF_GET,
+};
+
+enum philips_pm2800_modules {
+ PM2800_MOD_30V_10A = 1,
+ PM2800_MOD_60V_5A,
+ PM2800_MOD_60V_10A,
+ PM2800_MOD_8V_15A,
+ PM2800_MOD_60V_2A,
+ PM2800_MOD_120V_1A,
+};
+
+static const struct philips_pm2800_module_spec {
+ /* Min, max, programming resolution. */
+ double voltage[5];
+ double current[5];
+ double power[5];
+} philips_pm2800_module_specs[] = {
+ /* Autoranging modules. */
+ [PM2800_MOD_30V_10A] = { { 0, 30, 0.0075, 2, 4 }, { 0, 10, 0.0025, 2, 4 }, { 0, 60 } },
+ [PM2800_MOD_60V_5A] = { { 0, 60, 0.015, 2, 3 }, { 0, 5, 0.00125, 2, 5 }, { 0, 60 } },
+ [PM2800_MOD_60V_10A] = { { 0, 60, 0.015, 2, 3 }, { 0, 10, 0.0025, 2, 5 }, { 0, 120 } },
+ /* Linear modules. */
+ [PM2800_MOD_8V_15A] = { { 0, 8, 0.002, 3, 3 }, { -15, 15, 0.00375, 3, 5 }, { 0, 120 } },
+ [PM2800_MOD_60V_2A] = { { 0, 60, 0.015, 2, 3 }, { -2, 2, 0.0005, 3, 4 }, { 0, 120 } },
+ [PM2800_MOD_120V_1A] = { { 0, 120, 0.030, 2, 2 }, { -1, 1, 0.00025, 3, 5 }, { 0, 120 } },
+};
+
+static const struct philips_pm2800_model {
+ unsigned int chassis;
+ unsigned int num_modules;
+ unsigned int set;
+ unsigned int modules[3];
+} philips_pm2800_matrix[] = {
+ /* Autoranging chassis. */
+ { 1, 1, 0, { PM2800_MOD_30V_10A, 0, 0 } },
+ { 1, 1, 1, { PM2800_MOD_60V_5A, 0, 0 } },
+ { 1, 2, 0, { PM2800_MOD_30V_10A, PM2800_MOD_30V_10A, 0 } },
+ { 1, 2, 1, { PM2800_MOD_60V_5A, PM2800_MOD_60V_5A, 0 } },
+ { 1, 2, 2, { PM2800_MOD_30V_10A, PM2800_MOD_60V_5A, 0 } },
+ { 1, 2, 3, { PM2800_MOD_30V_10A, PM2800_MOD_60V_10A, 0 } },
+ { 1, 2, 4, { PM2800_MOD_60V_5A, PM2800_MOD_60V_10A, 0 } },
+ { 1, 3, 0, { PM2800_MOD_30V_10A, PM2800_MOD_30V_10A, PM2800_MOD_30V_10A } },
+ { 1, 3, 1, { PM2800_MOD_60V_5A, PM2800_MOD_60V_5A, PM2800_MOD_60V_5A } },
+ { 1, 3, 2, { PM2800_MOD_30V_10A, PM2800_MOD_30V_10A, PM2800_MOD_60V_5A } },
+ { 1, 3, 3, { PM2800_MOD_30V_10A, PM2800_MOD_60V_5A, PM2800_MOD_60V_5A } },
+ /* Linear chassis. */
+ { 3, 1, 0, { PM2800_MOD_60V_2A, 0, 0 } },
+ { 3, 1, 1, { PM2800_MOD_120V_1A, 0, 0 } },
+ { 3, 1, 2, { PM2800_MOD_8V_15A, 0, 0 } },
+ { 3, 2, 0, { PM2800_MOD_60V_2A, 0, 0 } },
+ { 3, 2, 1, { PM2800_MOD_120V_1A, 0, 0 } },
+ { 3, 2, 2, { PM2800_MOD_60V_2A, PM2800_MOD_120V_1A, 0 } },
+ { 3, 2, 3, { PM2800_MOD_8V_15A, PM2800_MOD_8V_15A, 0 } },
+};
+
+static const char *philips_pm2800_names[] = { "1", "2", "3" };
+
+static int philips_pm2800_probe_channels(struct sr_dev_inst *sdi,
+ struct sr_scpi_hw_info *hw_info,
+ struct channel_spec **channels, unsigned int *num_channels,
+ struct channel_group_spec **channel_groups, unsigned int *num_channel_groups)
+{
+ const struct philips_pm2800_model *model;
+ const struct philips_pm2800_module_spec *spec;
+ unsigned int chassis, num_modules, set, module, m, i;
+
+ (void)sdi;
+
+ /*
+ * The model number as reported by *IDN? looks like e.g. PM2813/11,
+ * Where "PM28" is fixed, followed by the chassis code (1 = autoranging,
+ * 3 = linear series) and the number of modules: 1-3 for autoranging,
+ * 1-2 for linear.
+ * After the slash, the first digit denotes the module set. The
+ * digit after that denotes front (5) or rear (1) binding posts.
+ */
+ chassis = hw_info->model[4] - 0x30;
+ num_modules = hw_info->model[5] - 0x30;
+ set = hw_info->model[7] - 0x30;
+ for (m = 0; m < ARRAY_SIZE(philips_pm2800_matrix); m++) {
+ model = &philips_pm2800_matrix[m];
+ if (model->chassis == chassis && model->num_modules == num_modules
+ && model->set == set)
+ break;
+ }
+ if (m == ARRAY_SIZE(philips_pm2800_matrix)) {
+ sr_dbg("Model %s not found in matrix.", hw_info->model);
+ return SR_ERR;
+ }
+
+ sr_dbg("Found %d output channel%s:", num_modules, num_modules > 1 ? "s" : "");
+ *channels = g_malloc0(sizeof(struct channel_spec) * num_modules);
+ *channel_groups = g_malloc0(sizeof(struct channel_group_spec) * num_modules);
+ for (i = 0; i < num_modules; i++) {
+ module = model->modules[i];
+ spec = &philips_pm2800_module_specs[module];
+ sr_dbg("output %d: %.0f - %.0fV, %.0f - %.0fA, %.0f - %.0fW", i + 1,
+ spec->voltage[0], spec->voltage[1],
+ spec->current[0], spec->current[1],
+ spec->power[0], spec->power[1]);
+ (*channels)[i].name = (char *)philips_pm2800_names[i];
+ memcpy(&((*channels)[i].voltage), spec, sizeof(double) * 15);
+ (*channel_groups)[i].name = (char *)philips_pm2800_names[i];
+ (*channel_groups)[i].channel_index_mask = 1 << i;
+ (*channel_groups)[i].features = PPS_OTP | PPS_OVP | PPS_OCP;
+ (*channel_groups)[i].mqflags = SR_MQFLAG_DC;
+ }
+ *num_channels = *num_channel_groups = num_modules;
+
+ return SR_OK;
+}
+
+static const struct scpi_command philips_pm2800_cmd[] = {
+ { SCPI_CMD_SELECT_CHANNEL, ":INST:NSEL %s" },
+ { SCPI_CMD_GET_MEAS_VOLTAGE, ":MEAS:VOLT?" },
+ { SCPI_CMD_GET_MEAS_CURRENT, ":MEAS:CURR?" },
+ { SCPI_CMD_GET_VOLTAGE_TARGET, ":SOUR:VOLT?" },
+ { SCPI_CMD_SET_VOLTAGE_TARGET, ":SOUR:VOLT %.6f" },
+ { SCPI_CMD_GET_CURRENT_LIMIT, ":SOUR:CURR?" },
+ { SCPI_CMD_SET_CURRENT_LIMIT, ":SOUR:CURR %.6f" },
+ { SCPI_CMD_GET_OUTPUT_ENABLED, ":OUTP?" },
+ { SCPI_CMD_SET_OUTPUT_ENABLE, ":OUTP ON" },
+ { SCPI_CMD_SET_OUTPUT_DISABLE, ":OUTP OFF" },
+ { SCPI_CMD_GET_OUTPUT_REGULATION, ":SOUR:FUNC:MODE?" },
+ { SCPI_CMD_GET_OVER_VOLTAGE_PROTECTION_ACTIVE, ":SOUR:VOLT:PROT:TRIP?" },
+ { SCPI_CMD_GET_OVER_VOLTAGE_PROTECTION_THRESHOLD, ":SOUR:VOLT:PROT:LEV?" },
+ { SCPI_CMD_SET_OVER_VOLTAGE_PROTECTION_THRESHOLD, ":SOUR:VOLT:PROT:LEV %.6f" },
+ { SCPI_CMD_GET_OVER_CURRENT_PROTECTION_ENABLED, ":SOUR:CURR:PROT:STAT?" },
+ { SCPI_CMD_SET_OVER_CURRENT_PROTECTION_ENABLE, ":SOUR:CURR:PROT:STAT ON" },
+ { SCPI_CMD_SET_OVER_CURRENT_PROTECTION_DISABLE, ":SOUR:CURR:PROT:STAT OFF" },
+ { SCPI_CMD_GET_OVER_CURRENT_PROTECTION_ACTIVE, ":SOUR:CURR:PROT:TRIP?" },
+ ALL_ZERO
};
+static const uint32_t rs_hmc8043_devopts[] = {
+ SR_CONF_CONTINUOUS,
+ SR_CONF_LIMIT_SAMPLES | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_LIMIT_MSEC | SR_CONF_GET | SR_CONF_SET,
+};
+
+static const uint32_t rs_hmc8043_devopts_cg[] = {
+ SR_CONF_OVER_VOLTAGE_PROTECTION_ENABLED | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_OVER_VOLTAGE_PROTECTION_ACTIVE | SR_CONF_GET,
+ SR_CONF_OVER_VOLTAGE_PROTECTION_THRESHOLD | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_VOLTAGE | SR_CONF_GET,
+ SR_CONF_VOLTAGE_TARGET | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_CURRENT | SR_CONF_GET,
+ SR_CONF_CURRENT_LIMIT | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_ENABLED | SR_CONF_GET | SR_CONF_SET,
+};
+
+static const struct channel_spec rs_hmc8043_ch[] = {
+ { "1", { 0, 32.050, 0.001, 3, 4 }, { 0.001, 3, 0.001, 3, 4 }, { 0, 0, 0, 0, 4 }, FREQ_DC_ONLY, NO_OVP_LIMITS, NO_OCP_LIMITS },
+ { "2", { 0, 32.050, 0.001, 3, 4 }, { 0.001, 3, 0.001, 3, 4 }, { 0, 0, 0, 0, 4 }, FREQ_DC_ONLY, NO_OVP_LIMITS, NO_OCP_LIMITS },
+ { "3", { 0, 32.050, 0.001, 3, 4 }, { 0.001, 3, 0.001, 3, 4 }, { 0, 0, 0, 0, 4 }, FREQ_DC_ONLY, NO_OVP_LIMITS, NO_OCP_LIMITS },
+};
+
+static const struct channel_group_spec rs_hmc8043_cg[] = {
+ { "1", CH_IDX(0), PPS_OVP, SR_MQFLAG_DC },
+ { "2", CH_IDX(1), PPS_OVP, SR_MQFLAG_DC },
+ { "3", CH_IDX(2), PPS_OVP, SR_MQFLAG_DC },
+};
+
+static const struct scpi_command rs_hmc8043_cmd[] = {
+ { SCPI_CMD_SELECT_CHANNEL, "INST:NSEL %s" },
+ { SCPI_CMD_GET_MEAS_VOLTAGE, "MEAS:VOLT?" },
+ { SCPI_CMD_GET_MEAS_CURRENT, "MEAS:CURR?" },
+ { SCPI_CMD_GET_VOLTAGE_TARGET, "VOLT?" },
+ { SCPI_CMD_SET_VOLTAGE_TARGET, "VOLT %.6f" },
+ { SCPI_CMD_GET_CURRENT_LIMIT, "CURR?" },
+ { SCPI_CMD_SET_CURRENT_LIMIT, "CURR %.6f" },
+ { SCPI_CMD_GET_OUTPUT_ENABLED, "OUTP?" },
+ { SCPI_CMD_SET_OUTPUT_ENABLE, "OUTP ON" },
+ { SCPI_CMD_SET_OUTPUT_DISABLE, "OUTP OFF" },
+ { SCPI_CMD_GET_OVER_VOLTAGE_PROTECTION_ACTIVE, "VOLT:PROT:TRIP?" },
+ { SCPI_CMD_GET_OVER_VOLTAGE_PROTECTION_THRESHOLD, "VOLT:PROT:LEV?" },
+ { SCPI_CMD_SET_OVER_VOLTAGE_PROTECTION_THRESHOLD, "VOLT:PROT:LEV %.6f" },
+ { SCPI_CMD_GET_OVER_VOLTAGE_PROTECTION_ENABLED, "VOLT:PROT:STAT?" },
+ { SCPI_CMD_SET_OVER_VOLTAGE_PROTECTION_ENABLE, "VOLT:PROT:STAT ON" },
+ { SCPI_CMD_SET_OVER_VOLTAGE_PROTECTION_DISABLE, "VOLT:PROT:STAT OFF" },
+ ALL_ZERO
+};
+
+static const uint32_t rs_hmp4040_devopts[] = {
+ SR_CONF_CONTINUOUS,
+ SR_CONF_LIMIT_SAMPLES | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_LIMIT_MSEC | SR_CONF_GET | SR_CONF_SET,
+};
+
+static const uint32_t rs_hmp4040_devopts_cg[] = {
+ SR_CONF_OVER_VOLTAGE_PROTECTION_ENABLED | SR_CONF_GET,
+ SR_CONF_OVER_VOLTAGE_PROTECTION_ACTIVE | SR_CONF_GET,
+ SR_CONF_OVER_VOLTAGE_PROTECTION_THRESHOLD | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_VOLTAGE | SR_CONF_GET,
+ SR_CONF_VOLTAGE_TARGET | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_CURRENT | SR_CONF_GET,
+ SR_CONF_CURRENT_LIMIT | SR_CONF_GET | SR_CONF_SET | SR_CONF_LIST,
+ SR_CONF_ENABLED | SR_CONF_GET | SR_CONF_SET,
+ SR_CONF_OVER_TEMPERATURE_PROTECTION_ACTIVE | SR_CONF_GET,
+ SR_CONF_REGULATION | SR_CONF_GET,
+};
+
+static const struct channel_spec rs_hmp2020_ch[] = {
+ { "1", { 0, 32.050, 0.001, 3, 4 }, { 0.001, 10.01, 0.0002, 3, 4 }, { 0, 0, 0, 0, 4 }, FREQ_DC_ONLY, NO_OVP_LIMITS, NO_OCP_LIMITS },
+ { "2", { 0, 32.050, 0.001, 3, 4 }, { 0.001, 5.01, 0.0001, 3, 4 }, { 0, 0, 0, 0, 4 }, FREQ_DC_ONLY, NO_OVP_LIMITS, NO_OCP_LIMITS },
+};
+
+static const struct channel_spec rs_hmp2030_ch[] = {
+ { "1", { 0, 32.050, 0.001, 3, 4 }, { 0.001, 5.01, 0.0001, 3, 4 }, { 0, 0, 0, 0, 4 }, FREQ_DC_ONLY, NO_OVP_LIMITS, NO_OCP_LIMITS },
+ { "2", { 0, 32.050, 0.001, 3, 4 }, { 0.001, 5.01, 0.0001, 3, 4 }, { 0, 0, 0, 0, 4 }, FREQ_DC_ONLY, NO_OVP_LIMITS, NO_OCP_LIMITS },
+ { "3", { 0, 32.050, 0.001, 3, 4 }, { 0.001, 5.01, 0.0001, 3, 4 }, { 0, 0, 0, 0, 4 }, FREQ_DC_ONLY, NO_OVP_LIMITS, NO_OCP_LIMITS },
+};
+
+static const struct channel_spec rs_hmp4040_ch[] = {
+ { "1", { 0, 32.050, 0.001, 3, 4 }, { 0.001, 10.01, 0.0002, 3, 4 }, { 0, 0, 0, 0, 4 }, FREQ_DC_ONLY, NO_OVP_LIMITS, NO_OCP_LIMITS },
+ { "2", { 0, 32.050, 0.001, 3, 4 }, { 0.001, 10.01, 0.0002, 3, 4 }, { 0, 0, 0, 0, 4 }, FREQ_DC_ONLY, NO_OVP_LIMITS, NO_OCP_LIMITS },
+ { "3", { 0, 32.050, 0.001, 3, 4 }, { 0.001, 10.01, 0.0002, 3, 4 }, { 0, 0, 0, 0, 4 }, FREQ_DC_ONLY, NO_OVP_LIMITS, NO_OCP_LIMITS },
+ { "4", { 0, 32.050, 0.001, 3, 4 }, { 0.001, 10.01, 0.0002, 3, 4 }, { 0, 0, 0, 0, 4 }, FREQ_DC_ONLY, NO_OVP_LIMITS, NO_OCP_LIMITS },
+};
+
+static const struct channel_group_spec rs_hmp4040_cg[] = {
+ { "1", CH_IDX(0), PPS_OVP | PPS_OTP, SR_MQFLAG_DC },
+ { "2", CH_IDX(1), PPS_OVP | PPS_OTP, SR_MQFLAG_DC },
+ { "3", CH_IDX(2), PPS_OVP | PPS_OTP, SR_MQFLAG_DC },
+ { "4", CH_IDX(3), PPS_OVP | PPS_OTP, SR_MQFLAG_DC },
+};
+
+/*
+ * Developer's note: Currently unused device commands. Some of them
+ * are not in use because SCPI_CMD codes are not defined yet.
+ * OUTP:GEN
+ * VOLT? MAX, CURR? MAX
+ * VOLT:PROT:CLE (could set SR_CONF_OVER_VOLTAGE_PROTECTION_ACTIVE)
+ * VOLT:PROT:MODE
+ * FUSE:STAT, FUSE:TRIP?, FUSE:LINK, FUSE:UNL
+ * ARB:...
+ * SYST:LOC, SYST:REM, SYST:RWL, SYST:MIX
+ * SYST:BEEP:IMM
+ */
+static const struct scpi_command rs_hmp4040_cmd[] = {
+ { SCPI_CMD_REMOTE, "SYST:REM" },
+ { SCPI_CMD_LOCAL, "SYST:LOC" },
+ { SCPI_CMD_SELECT_CHANNEL, "INST:NSEL %s" },
+ { SCPI_CMD_GET_MEAS_VOLTAGE, "MEAS:VOLT?" },
+ { SCPI_CMD_GET_MEAS_CURRENT, "MEAS:CURR?" },
+ { SCPI_CMD_GET_VOLTAGE_TARGET, "VOLT?" },
+ { SCPI_CMD_SET_VOLTAGE_TARGET, "VOLT %.6f" },
+ { SCPI_CMD_GET_CURRENT_LIMIT, "CURR?" },
+ { SCPI_CMD_SET_CURRENT_LIMIT, "CURR %.6f" },
+ { SCPI_CMD_GET_OUTPUT_ENABLED, "OUTP?" },
+ { SCPI_CMD_SET_OUTPUT_ENABLE, "OUTP ON" },
+ { SCPI_CMD_SET_OUTPUT_DISABLE, "OUTP OFF" },
+ { SCPI_CMD_GET_OUTPUT_REGULATION, "STAT:QUES:INST:ISUM%s:COND?" },
+ { SCPI_CMD_GET_OVER_VOLTAGE_PROTECTION_ACTIVE, "VOLT:PROT:TRIP?" },
+ { SCPI_CMD_GET_OVER_VOLTAGE_PROTECTION_THRESHOLD, "VOLT:PROT:LEV?" },
+ { SCPI_CMD_SET_OVER_VOLTAGE_PROTECTION_THRESHOLD, "VOLT:PROT:LEV %.6f" },
+ { SCPI_CMD_GET_OVER_TEMPERATURE_PROTECTION_ACTIVE, "STAT:QUES:INST:ISUM%s:COND?" },
+ ALL_ZERO
+};
SR_PRIV const struct scpi_pps pps_profiles[] = {
+ /* Agilent N5763A */
+ { "Agilent", "N5763A", SCPI_DIALECT_UNKNOWN, 0,
+ ARRAY_AND_SIZE(agilent_n5700a_devopts),
+ ARRAY_AND_SIZE(agilent_n5700a_devopts_cg),
+ ARRAY_AND_SIZE(agilent_n5763a_ch),
+ ARRAY_AND_SIZE(agilent_n5700a_cg),
+ agilent_n5700a_cmd,
+ .probe_channels = NULL,
+ .init_acquisition = NULL,
+ .update_status = NULL,
+ },
+
+ /* Agilent N5767A */
+ { "Agilent", "N5767A", SCPI_DIALECT_UNKNOWN, 0,
+ ARRAY_AND_SIZE(agilent_n5700a_devopts),
+ ARRAY_AND_SIZE(agilent_n5700a_devopts_cg),
+ ARRAY_AND_SIZE(agilent_n5767a_ch),
+ ARRAY_AND_SIZE(agilent_n5700a_cg),
+ agilent_n5700a_cmd,
+ .probe_channels = NULL,
+ .init_acquisition = NULL,
+ .update_status = NULL,
+ },
+
+ /* BK Precision 9310 */
+ { "BK", "^9130$", SCPI_DIALECT_UNKNOWN, 0,
+ ARRAY_AND_SIZE(bk_9130_devopts),
+ ARRAY_AND_SIZE(bk_9130_devopts_cg),
+ ARRAY_AND_SIZE(bk_9130_ch),
+ ARRAY_AND_SIZE(bk_9130_cg),
+ bk_9130_cmd,
+ .probe_channels = NULL,
+ .init_acquisition = NULL,
+ .update_status = NULL,
+ },
+
+ /* Chroma 61604 */
+ { "Chroma", "61604", SCPI_DIALECT_UNKNOWN, 0,
+ ARRAY_AND_SIZE(chroma_61604_devopts),
+ ARRAY_AND_SIZE(chroma_61604_devopts_cg),
+ ARRAY_AND_SIZE(chroma_61604_ch),
+ ARRAY_AND_SIZE(chroma_61604_cg),
+ chroma_61604_cmd,
+ .probe_channels = NULL,
+ .init_acquisition = NULL,
+ .update_status = NULL,
+ },
+
+ /* Chroma 62000 series */
+ { "Chroma", "620[0-9]{2}P-[0-9]{2,3}-[0-9]{1,3}", SCPI_DIALECT_UNKNOWN, 0,
+ ARRAY_AND_SIZE(chroma_62000_devopts),
+ ARRAY_AND_SIZE(chroma_62000_devopts_cg),
+ NULL, 0,
+ NULL, 0,
+ chroma_62000_cmd,
+ .probe_channels = chroma_62000p_probe_channels,
+ .init_acquisition = NULL,
+ .update_status = NULL,
+ },
+
+ /*
+ * Envox EEZ PSU Series
+ * The documented identification strings disagree with the behavior
+ * of at least some real units (returning "EEZ"). The first of these
+ * is the documented one, while the second seems to be returned by
+ * firmware v1.02 and earlier.
+ */
+ { "Envox", "^EEZ H24005 ", SCPI_DIALECT_UNKNOWN, 0,
+ ARRAY_AND_SIZE(eez_psu_devopts),
+ ARRAY_AND_SIZE(eez_psu_devopts_cg),
+ NULL, 0,
+ NULL, 0,
+ eez_psu_cmd,
+ .probe_channels = eez_psu_probe_channels,
+ .init_acquisition = NULL,
+ .update_status = NULL,
+ },
+ { "EEZ", "^PSU ", SCPI_DIALECT_UNKNOWN, 0,
+ ARRAY_AND_SIZE(eez_psu_devopts),
+ ARRAY_AND_SIZE(eez_psu_devopts_cg),
+ NULL, 0,
+ NULL, 0,
+ eez_psu_cmd,
+ .probe_channels = eez_psu_probe_channels,
+ .init_acquisition = NULL,
+ .update_status = NULL,
+ },
+
+ /* Envox EEZ BB3 Series */
+ { "Envox", "^BB3 ", SCPI_DIALECT_UNKNOWN, 0,
+ ARRAY_AND_SIZE(eez_psu_devopts),
+ ARRAY_AND_SIZE(eez_psu_devopts_cg),
+ NULL, 0,
+ NULL, 0,
+ eez_psu_cmd,
+ .probe_channels = eez_psu_probe_channels,
+ .init_acquisition = NULL,
+ .update_status = NULL,
+ },
+
+ /*
+ * This entry is for testing the HP COMP language with a HP 6632B power
+ * supply switched to the COMP language ("SYST:LANG COMP"). When used,
+ * disable the entry for the HP 6632B below!
+ */
+ /*
+ { "HP", "6632B", SCPI_DIALECT_HP_COMP, 0,
+ ARRAY_AND_SIZE(hp_6630a_devopts),
+ ARRAY_AND_SIZE(hp_6630a_devopts_cg),
+ ARRAY_AND_SIZE(hp_6632a_ch),
+ ARRAY_AND_SIZE(hp_6630a_cg),
+ hp_6630a_cmd,
+ .probe_channels = NULL,
+ hp_6630a_init_acquisition,
+ hp_6630a_update_status,
+ },
+ */
+
+ /* HP 6632A */
+ { "HP", "6632A", SCPI_DIALECT_HP_COMP, 0,
+ ARRAY_AND_SIZE(hp_6630a_devopts),
+ ARRAY_AND_SIZE(hp_6630a_devopts_cg),
+ ARRAY_AND_SIZE(hp_6632a_ch),
+ ARRAY_AND_SIZE(hp_6630a_cg),
+ hp_6630a_cmd,
+ .probe_channels = NULL,
+ hp_6630a_init_acquisition,
+ hp_6630a_update_status,
+ },
+
+ /* HP 6633A */
+ { "HP", "6633A", SCPI_DIALECT_HP_COMP, 0,
+ ARRAY_AND_SIZE(hp_6630a_devopts),
+ ARRAY_AND_SIZE(hp_6630a_devopts_cg),
+ ARRAY_AND_SIZE(hp_6633a_ch),
+ ARRAY_AND_SIZE(hp_6630a_cg),
+ hp_6630a_cmd,
+ .probe_channels = NULL,
+ hp_6630a_init_acquisition,
+ hp_6630a_update_status,
+ },
+
+ /* HP 6634A */
+ { "HP", "6634A", SCPI_DIALECT_HP_COMP, 0,
+ ARRAY_AND_SIZE(hp_6630a_devopts),
+ ARRAY_AND_SIZE(hp_6630a_devopts_cg),
+ ARRAY_AND_SIZE(hp_6634a_ch),
+ ARRAY_AND_SIZE(hp_6630a_cg),
+ hp_6630a_cmd,
+ .probe_channels = NULL,
+ hp_6630a_init_acquisition,
+ hp_6630a_update_status,
+ },
+
+ /* HP 6611C */
+ { "HP", "6611C", SCPI_DIALECT_HP_66XXB, PPS_OTP,
+ ARRAY_AND_SIZE(hp_6630b_devopts),
+ ARRAY_AND_SIZE(hp_6630b_devopts_cg),
+ ARRAY_AND_SIZE(hp_6611c_ch),
+ ARRAY_AND_SIZE(hp_6630b_cg),
+ hp_6630b_cmd,
+ .probe_channels = NULL,
+ hp_6630b_init_acquisition,
+ hp_6630b_update_status,
+ },
+
+ /* HP 6612C */
+ { "HP", "6612C", SCPI_DIALECT_HP_66XXB, PPS_OTP,
+ ARRAY_AND_SIZE(hp_6630b_devopts),
+ ARRAY_AND_SIZE(hp_6630b_devopts_cg),
+ ARRAY_AND_SIZE(hp_6612c_ch),
+ ARRAY_AND_SIZE(hp_6630b_cg),
+ hp_6630b_cmd,
+ .probe_channels = NULL,
+ hp_6630b_init_acquisition,
+ hp_6630b_update_status,
+ },
+
+ /* HP 6613C */
+ { "HP", "6613C", SCPI_DIALECT_HP_66XXB, PPS_OTP,
+ ARRAY_AND_SIZE(hp_6630b_devopts),
+ ARRAY_AND_SIZE(hp_6630b_devopts_cg),
+ ARRAY_AND_SIZE(hp_6613c_ch),
+ ARRAY_AND_SIZE(hp_6630b_cg),
+ hp_6630b_cmd,
+ .probe_channels = NULL,
+ hp_6630b_init_acquisition,
+ hp_6630b_update_status,
+ },
+
+ /* HP 6614C */
+ { "HP", "6614C", SCPI_DIALECT_HP_66XXB, PPS_OTP,
+ ARRAY_AND_SIZE(hp_6630b_devopts),
+ ARRAY_AND_SIZE(hp_6630b_devopts_cg),
+ ARRAY_AND_SIZE(hp_6614c_ch),
+ ARRAY_AND_SIZE(hp_6630b_cg),
+ hp_6630b_cmd,
+ .probe_channels = NULL,
+ hp_6630b_init_acquisition,
+ hp_6630b_update_status,
+ },
+
+ /* HP 6631B */
+ { "HP", "6631B", SCPI_DIALECT_HP_66XXB, PPS_OTP,
+ ARRAY_AND_SIZE(hp_6630b_devopts),
+ ARRAY_AND_SIZE(hp_6630b_devopts_cg),
+ ARRAY_AND_SIZE(hp_6631b_ch),
+ ARRAY_AND_SIZE(hp_6630b_cg),
+ hp_6630b_cmd,
+ .probe_channels = NULL,
+ hp_6630b_init_acquisition,
+ hp_6630b_update_status,
+ },
+
/* HP 6632B */
- { "HP", "6632B", 0,
- ARRAY_AND_SIZE(hp_6632b_devopts),
- ARRAY_AND_SIZE(devopts_none),
+ { "HP", "6632B", SCPI_DIALECT_HP_66XXB, PPS_OTP,
+ ARRAY_AND_SIZE(hp_6630b_devopts),
+ ARRAY_AND_SIZE(hp_6630b_devopts_cg),
ARRAY_AND_SIZE(hp_6632b_ch),
- ARRAY_AND_SIZE(hp_6632b_cg),
- ARRAY_AND_SIZE(hp_6632b_cmd),
+ ARRAY_AND_SIZE(hp_6630b_cg),
+ hp_6630b_cmd,
+ .probe_channels = NULL,
+ hp_6630b_init_acquisition,
+ hp_6630b_update_status,
+ },
+
+ /* HP 66312A */
+ { "HP", "66312A", SCPI_DIALECT_HP_66XXB, PPS_OTP,
+ ARRAY_AND_SIZE(hp_6630b_devopts),
+ ARRAY_AND_SIZE(hp_6630b_devopts_cg),
+ ARRAY_AND_SIZE(hp_66312a_ch),
+ ARRAY_AND_SIZE(hp_6630b_cg),
+ hp_6630b_cmd,
+ .probe_channels = NULL,
+ hp_6630b_init_acquisition,
+ hp_6630b_update_status,
+ },
+
+ /* HP 66332A */
+ { "HP", "66332A", SCPI_DIALECT_HP_66XXB, PPS_OTP,
+ ARRAY_AND_SIZE(hp_6630b_devopts),
+ ARRAY_AND_SIZE(hp_6630b_devopts_cg),
+ ARRAY_AND_SIZE(hp_66332a_ch),
+ ARRAY_AND_SIZE(hp_6630b_cg),
+ hp_6630b_cmd,
+ .probe_channels = NULL,
+ hp_6630b_init_acquisition,
+ hp_6630b_update_status,
+ },
+
+ /* HP 6633B */
+ { "HP", "6633B", SCPI_DIALECT_HP_66XXB, PPS_OTP,
+ ARRAY_AND_SIZE(hp_6630b_devopts),
+ ARRAY_AND_SIZE(hp_6630b_devopts_cg),
+ ARRAY_AND_SIZE(hp_6633b_ch),
+ ARRAY_AND_SIZE(hp_6630b_cg),
+ hp_6630b_cmd,
+ .probe_channels = NULL,
+ hp_6630b_init_acquisition,
+ hp_6630b_update_status,
+ },
+
+ /* HP 6634B */
+ { "HP", "6634B", SCPI_DIALECT_HP_66XXB, PPS_OTP,
+ ARRAY_AND_SIZE(hp_6630b_devopts),
+ ARRAY_AND_SIZE(hp_6630b_devopts_cg),
+ ARRAY_AND_SIZE(hp_6634b_ch),
+ ARRAY_AND_SIZE(hp_6630b_cg),
+ hp_6630b_cmd,
+ .probe_channels = NULL,
+ hp_6630b_init_acquisition,
+ hp_6630b_update_status,
+ },
+
+ /* Rigol DP700 series */
+ { "Rigol", "^DP711$", SCPI_DIALECT_UNKNOWN, 0,
+ ARRAY_AND_SIZE(rigol_dp700_devopts),
+ ARRAY_AND_SIZE(rigol_dp700_devopts_cg),
+ ARRAY_AND_SIZE(rigol_dp711_ch),
+ ARRAY_AND_SIZE(rigol_dp700_cg),
+ rigol_dp700_cmd,
+ .probe_channels = NULL,
+ .init_acquisition = NULL,
+ .update_status = NULL,
+ },
+ { "Rigol", "^DP712$", SCPI_DIALECT_UNKNOWN, 0,
+ ARRAY_AND_SIZE(rigol_dp700_devopts),
+ ARRAY_AND_SIZE(rigol_dp700_devopts_cg),
+ ARRAY_AND_SIZE(rigol_dp712_ch),
+ ARRAY_AND_SIZE(rigol_dp700_cg),
+ rigol_dp700_cmd,
+ .probe_channels = NULL,
+ .init_acquisition = NULL,
+ .update_status = NULL,
},
/* Rigol DP800 series */
- { "Rigol", "^DP831A$", PPS_OTP,
+ { "Rigol", "^DP821A$", SCPI_DIALECT_UNKNOWN, PPS_OTP,
+ ARRAY_AND_SIZE(rigol_dp800_devopts),
+ ARRAY_AND_SIZE(rigol_dp800_devopts_cg),
+ ARRAY_AND_SIZE(rigol_dp821a_ch),
+ ARRAY_AND_SIZE(rigol_dp820_cg),
+ rigol_dp800_cmd,
+ .probe_channels = NULL,
+ .init_acquisition = NULL,
+ .update_status = NULL,
+ },
+ { "Rigol", "^DP831A$", SCPI_DIALECT_UNKNOWN, PPS_OTP,
ARRAY_AND_SIZE(rigol_dp800_devopts),
ARRAY_AND_SIZE(rigol_dp800_devopts_cg),
ARRAY_AND_SIZE(rigol_dp831_ch),
- ARRAY_AND_SIZE(rigol_dp800_cg),
- ARRAY_AND_SIZE(rigol_dp800_cmd),
+ ARRAY_AND_SIZE(rigol_dp830_cg),
+ rigol_dp800_cmd,
+ .probe_channels = NULL,
+ .init_acquisition = NULL,
+ .update_status = NULL,
},
- { "Rigol", "^(DP832|DP832A)$", PPS_OTP,
+ { "Rigol", "^(DP832|DP832A)$", SCPI_DIALECT_UNKNOWN, PPS_OTP,
ARRAY_AND_SIZE(rigol_dp800_devopts),
ARRAY_AND_SIZE(rigol_dp800_devopts_cg),
ARRAY_AND_SIZE(rigol_dp832_ch),
- ARRAY_AND_SIZE(rigol_dp800_cg),
- ARRAY_AND_SIZE(rigol_dp800_cmd),
+ ARRAY_AND_SIZE(rigol_dp830_cg),
+ rigol_dp800_cmd,
+ .probe_channels = NULL,
+ .init_acquisition = NULL,
+ .update_status = NULL,
+ },
+
+ /* Owon P4000 series */
+ { "OWON", "^P4305$", SCPI_DIALECT_UNKNOWN, 0,
+ ARRAY_AND_SIZE(owon_p4000_devopts),
+ ARRAY_AND_SIZE(owon_p4000_devopts_cg),
+ ARRAY_AND_SIZE(owon_p4305_ch),
+ ARRAY_AND_SIZE(owon_p4000_cg),
+ owon_p4000_cmd,
+ .probe_channels = NULL,
+ .init_acquisition = NULL,
+ .update_status = NULL,
+ },
+ { "OWON", "^P4603$", SCPI_DIALECT_UNKNOWN, 0,
+ ARRAY_AND_SIZE(owon_p4000_devopts),
+ ARRAY_AND_SIZE(owon_p4000_devopts_cg),
+ ARRAY_AND_SIZE(owon_p4603_ch),
+ ARRAY_AND_SIZE(owon_p4000_cg),
+ owon_p4000_cmd,
+ .probe_channels = NULL,
+ .init_acquisition = NULL,
+ .update_status = NULL,
+ },
+
+ /* Philips/Fluke PM2800 series */
+ { "Philips", "^PM28[13][123]/[01234]{1,2}$", SCPI_DIALECT_PHILIPS, 0,
+ ARRAY_AND_SIZE(philips_pm2800_devopts),
+ ARRAY_AND_SIZE(philips_pm2800_devopts_cg),
+ NULL, 0,
+ NULL, 0,
+ philips_pm2800_cmd,
+ philips_pm2800_probe_channels,
+ .init_acquisition = NULL,
+ .update_status = NULL,
+ },
+
+ /* Rohde & Schwarz HMC8043 */
+ { "Rohde&Schwarz", "HMC8043", SCPI_DIALECT_UNKNOWN, 0,
+ ARRAY_AND_SIZE(rs_hmc8043_devopts),
+ ARRAY_AND_SIZE(rs_hmc8043_devopts_cg),
+ ARRAY_AND_SIZE(rs_hmc8043_ch),
+ ARRAY_AND_SIZE(rs_hmc8043_cg),
+ rs_hmc8043_cmd,
+ .probe_channels = NULL,
+ .init_acquisition = NULL,
+ .update_status = NULL,
+ },
+
+ /* Hameg / Rohde&Schwarz HMP4000 series */
+ /* TODO Match on regex, pass scpi_pps item to .probe_channels(). */
+ { "HAMEG", "HMP4030", SCPI_DIALECT_HMP, 0,
+ ARRAY_AND_SIZE(rs_hmp4040_devopts),
+ ARRAY_AND_SIZE(rs_hmp4040_devopts_cg),
+ rs_hmp4040_ch, 3,
+ rs_hmp4040_cg, 3,
+ rs_hmp4040_cmd,
+ .probe_channels = NULL,
+ .init_acquisition = NULL,
+ .update_status = NULL,
+ },
+ { "HAMEG", "HMP4040", SCPI_DIALECT_HMP, 0,
+ ARRAY_AND_SIZE(rs_hmp4040_devopts),
+ ARRAY_AND_SIZE(rs_hmp4040_devopts_cg),
+ ARRAY_AND_SIZE(rs_hmp4040_ch),
+ ARRAY_AND_SIZE(rs_hmp4040_cg),
+ rs_hmp4040_cmd,
+ .probe_channels = NULL,
+ .init_acquisition = NULL,
+ .update_status = NULL,
+ },
+ { "ROHDE&SCHWARZ", "HMP2020", SCPI_DIALECT_HMP, 0,
+ ARRAY_AND_SIZE(rs_hmp4040_devopts),
+ ARRAY_AND_SIZE(rs_hmp4040_devopts_cg),
+ rs_hmp2020_ch, 2,
+ rs_hmp4040_cg, 2,
+ rs_hmp4040_cmd,
+ .probe_channels = NULL,
+ .init_acquisition = NULL,
+ .update_status = NULL,
+ },
+ { "ROHDE&SCHWARZ", "HMP2030", SCPI_DIALECT_HMP, 0,
+ ARRAY_AND_SIZE(rs_hmp4040_devopts),
+ ARRAY_AND_SIZE(rs_hmp4040_devopts_cg),
+ rs_hmp2030_ch, 3,
+ rs_hmp4040_cg, 3,
+ rs_hmp4040_cmd,
+ .probe_channels = NULL,
+ .init_acquisition = NULL,
+ .update_status = NULL,
+ },
+ { "ROHDE&SCHWARZ", "HMP4030", SCPI_DIALECT_HMP, 0,
+ ARRAY_AND_SIZE(rs_hmp4040_devopts),
+ ARRAY_AND_SIZE(rs_hmp4040_devopts_cg),
+ rs_hmp4040_ch, 3,
+ rs_hmp4040_cg, 3,
+ rs_hmp4040_cmd,
+ .probe_channels = NULL,
+ .init_acquisition = NULL,
+ .update_status = NULL,
+ },
+ { "ROHDE&SCHWARZ", "HMP4040", SCPI_DIALECT_HMP, 0,
+ ARRAY_AND_SIZE(rs_hmp4040_devopts),
+ ARRAY_AND_SIZE(rs_hmp4040_devopts_cg),
+ ARRAY_AND_SIZE(rs_hmp4040_ch),
+ ARRAY_AND_SIZE(rs_hmp4040_cg),
+ rs_hmp4040_cmd,
+ .probe_channels = NULL,
+ .init_acquisition = NULL,
+ .update_status = NULL,
},
};
-SR_PRIV unsigned int num_pps_profiles = ARRAY_SIZE(pps_profiles);
+SR_PRIV unsigned int num_pps_profiles = ARRAY_SIZE(pps_profiles);