step("new PsuCpx400()"); //// $psu = new PsuCpx400("192.168.23.65", 9221, false); $psu->unlock(true); $t->equal(false, $psu->isLocked()); //// $t->step("PsuCpx400->lock()"); $psu->lock(); $t->equal(true, $psu->isLocked()); //// $t->step("PsuCpx400->reset()"); //// $psu->reset(); $t->equal(0, $psu->getCurrent(1)); $t->equal(0, $psu->getCurrent(2)); $t->equal(0.01, $psu->getIncCurrent(1)); $t->equal(0.01, $psu->getIncCurrent(2)); $t->equal(0, $psu->getVoltage(1)); $t->equal(0, $psu->getVoltage(2)); $t->equal(0.01, $psu->getIncVoltage(1)); $t->equal(0.01, $psu->getIncVoltage(2)); //// $t->step("PsuCpx400->info()"); echo $psu->info(); //// $t->step("Channel 1 & 2 set/get min/max user-limit *current*"); //// $psu->setMinCurrent(1, 0.25); $t->equal(0.25, $psu->getMinCurrent(1)); $psu->setMaxCurrent(1, 0.50); $t->equal(0.50, $psu->getMaxCurrent(1)); $psu->setMinCurrent(2, 0.25); $t->equal(0.25, $psu->getMinCurrent(2)); $psu->setMaxCurrent(2, 0.25); $t->equal(0.25, $psu->getMaxCurrent(2)); $psu->setMinCurrent(1, 0); $psu->setMaxCurrent(1, 0); $psu->setMinCurrent(2, 0); $psu->setMaxCurrent(2, 0); //// $t->step("Channel 1 set/get *current*"); //// $psu->setCurrent(1, 1.23); $t->equal(1.23, $psu->getCurrent(1)); $psu->setCurrent(1, 0); $t->equal(0, $psu->getCurrent(1)); //// $t->step("Channel 1 increment *current*"); //// $psu->setCurrent(1, 0.0); $t->equal(0, $psu->getCurrent(1)); $psu->setIncCurrent(1, 0.5); $t->equal(0.50, $psu->getIncCurrent(1)); $psu->incCurrent(1); $t->equal(0.50, $psu->getCurrent(1)); $psu->incCurrent(1); $t->equal(1.00, $psu->getCurrent(1)); $psu->incCurrent(1); $t->equal(1.50, $psu->getCurrent(1)); $psu->reset(); //// $t->step("Channel 1 & 2 set/get min/max user-limit *voltage*"); //// $psu->setMinVoltage(1, 0.25); $t->equal(0.25, $psu->getMinVoltage(1)); $psu->setMaxVoltage(1, 0.50); $t->equal(0.50, $psu->getMaxVoltage(1)); $psu->setMinVoltage(2, 0.25); $t->equal(0.25, $psu->getMinVoltage(2)); $psu->setMaxVoltage(2, 0.50); $t->equal(0.50, $psu->getMaxVoltage(2)); $psu->setMinVoltage(1, 0); $psu->setMaxVoltage(1, 0); $psu->setMinVoltage(2, 0); $psu->setMaxVoltage(2, 0); //// $t->step("Channel 1 get 100x *voltage*"); //// for ($i = 0; $i < 100; $i++) { $t->equal(0.0, $psu->getVoltage(1)); } //// $t->step("Channel 1 manual increment +0.50 until 5.00 *voltage*"); //// $psu->resetLimits(); for ($v = 0; $v < 5.00; $v += 0.50) { $psu->setVoltage(1, $v); $t->equal($v, $psu->getVoltage(1)); } //// $t->step("Channel 1 set/get *voltage*"); //// $psu->setVoltage(1, 1.23); $t->equal(1.23, $psu->getVoltage(1)); $psu->setVoltage(1, 0); $t->equal(0, $psu->getVoltage(1)); //// $t->step("Channel 1 increment *voltage*"); //// $psu->setVoltage(1, 0.0); $psu->setIncVoltage(1, 0.5); $t->equal(0.50, $psu->getIncVoltage(1)); $psu->incVoltage(1); $t->equal(0.50, $psu->getVoltage(1)); $psu->incVoltage(1); $t->equal(1.00, $psu->getVoltage(1)); $psu->incVoltage(1); $t->equal(1.50, $psu->getVoltage(1)); $psu->reset(); //// $t->step("Verify set voltage will not exceed set(Min/Max)"); //// $psu->setMinVoltage(1, 5.00); $psu->setMaxVoltage(1, 7.50); $t->equal(false, $psu->setVoltage(1, 4.99)); $t->equal(false, $psu->setVoltage(1, 7.51)); $t->equal(true, $psu->setVoltage(1, 5.00)); $t->equal(true, $psu->setVoltage(1, 6.50)); $t->equal(true, $psu->setVoltage(1, 7.50)); $psu->setMinVoltage(2, 2.50); $psu->setMaxVoltage(2, 3.50); $t->equal(false, $psu->setVoltage(2, 2.49)); $t->equal(false, $psu->setVoltage(2, 3.51)); $t->equal(true, $psu->setVoltage(2, 2.50)); $t->equal(true, $psu->setVoltage(2, 3.00)); $t->equal(true, $psu->setVoltage(2, 3.50)); //// $t->step("Cleanup"); //// $psu->reset(); $psu->outputsOff(); $psu->unlock(); $t->equal(false, $psu->isLocked()); //// Finish $t->finish();