CAENcard

Constructs a CAENcard object to communicate with a digitizer. slotNum is the geographical address of the module, fGeo is true, this is the slot the module is installed. If not, this is the geographical address that is assigned to the module in software (virtual slot).

crateNum is the VME crate number. If omitted, this is assumed to be 0, which is suitable for a single crate system. See the reference page for cratelocator for information about how to determine which crate is which

If fGeo is false, the module requires a nBase parameter to specify the base address set in the rotary switches of the module. Otherwise, the module's bases address is gotten from the physical slot of the crate.

Returnst the crate number the module is specified to be installed in. This is the crateNum parameter passed to the constructor.

Returns the module virtual slot number. This is just the value of the slotNum parameter given to the constructor for this module.

Returns true if the module was constructed via a geograhpical address. false is returned if base addressing was used to construct the module.

Returns the module base address. This value is only well defined if geographical addressing was not used to construct the module.

Returns the serial number of the module. This is the same as the number stamped on the serial number tag on the faceplate of the module.

Returns the hardware version register from the module PROM. It is not clear to me what this is or what the format is.

Returns the model number of the card, e.g. 785 for a V785 peak sensing adc. Submodel information (e.g. N for NIM) is not returned by this function.

Returns the firmware revision of the module. This is the version of the firmware chip plugged into the lower left hand side of the module as you hold it connectors facing to the left. The firmware is returned as a 16 bit number with the top byte the major version (the part to the left of the decimal point), the bottom byte the minor version. So a return value of 0x0901 corresponds to firmware revision 9.01.

Returns the value of the crate register of the module. At construction time, this is programmed to be the physical crate number. Calling setCrate, however can change the value of this register making it a virtual crate number.

Sets the crate register of the module to crateNum This value will be reported as the module crate number in the data returned from the module.

Sets the threshold of one or all channels to threshold. What this means depends on whether small or large thresholds are enabled (the default is large thresholds). If small thresholds are enabled, the threshold value is multiplied by 2 and applied to the incoming data. Large threshold multiply this value by 16.

If the ch value is not -1, it designates the channel to program (remember that a 16 channel module only uses the even numbered channels of the digitizer so ignore the front panel numbering). If -1 all threshold registers are set to the common value threshold

If called, the module will not supress data that is under the threshold.

If called the module will supress data that is under the threshold value. A key to getting this module to work efficiently is to set appropriate threshold values and then to call this function. If this is not done, you will get 34 longwords of data from this module for each event, rather than only receiving channels that have useful data.

If called, the module will retain data that has overflowed. This is usually important for a TDC. Overflow data indicates a channel did not have an input and over-ranged.

If this is called, the module will discard data that has overflowed. This is mostly useful for TDC modules, to discard overranged times.

I'm not 100% sure what effect this has on the module. If data are invalid (whatever that means), they will nonetheless appear in the data stream from the module (presumably with the valid bit clear).

Again see above. If data are invalid they will be discarded from the data stream.

If the module is a TDC it is set in common start mode. The gate input is a start and the individual channel inputs stop that channel. If the module is not a TDC, a std::string exception will be thrown explaining this fact.

If the module is a TDC, it is set to common stop mode. Individual channel inputs are individual starts while the common stop is the module Gate input. If the module is not a TDC, this function throws a std:string exception.

Sets the range of the module if it is a TDC. See the CAEN module hardware book for more information about this parameter which is programmed without interpretation into the range register. If the module is not a TDC, a std::string exception will be thrown.

This sets the pedestal compensation current for QDC modules. If the module is not a QDC a std::string exception is thrown. QDC's operate by integrating charge on a capacitor. As the charge is integrating during the gate, it is also leaking, as capacitors are imperfect. For sufficiently long gate times it is possible to distort the charge integration unless an initial charge is injected to compensate for the leakage. This function sets the amount of charge initially injected. The value should be larger for longer gates, and smaller for smaller gates.

This function disables the module completely. The action is the same as setting all channels to disabled.

This function re-enables a card that has been disabled by a call to cardOff.

Turns off channel ch. The specified channel will no longer contribute data.

Enables the channel specified by ch if it has previously been disabled by a call to channelOff

Reset the module's event counter. The event counter can be read via EventCount. The event counter is also placed in the trailer longword of each event that contributes data to the output stream.

Clears any buffered events from the module. Remember that the module is a multievent digiitizer. If you are attempting to run it in single event mode, you need to clear the data between each event to ensure that any events that have leaked in your dead time have been cleared from the system.

Perform a soft reset on the module.

Returns true if the module's data buffer is not empty (that is there is at least one complete event int he buffer.

If the control bus of several modules is bussed together, this function returns true if any of the modules on that bus has data.

Returns true if the module is busy. The module can be busy either because it is actively digitizing an event (6microseconds), or because the multi event buffer is full (until at least one event is read out or the module is cleared).

Returns true if the gBusy pin on the external control bus is asserted. If the control bus is bussed with other modules, this is true if any module in the control bus is busy.

Returns true if the multiple event buffer int he module is full.

Returns true if the module's multi-event buffer is empty.

Reads a single event from the module into the buffer pointed to by buf. The buffer must be at least 34 longwords long. The return value is the number of bytes that were placed in the buffer. This could be zero.

Reads an event in to the spectrodaq buffer wbuf The event is placed at word offset offset from the start of the buffer. The return value is the number of 16 bit words read to the buffer. This could be 0.

Returns the value of the pedestal injection current register for QDC modules. Throws a std::string exception for non QDCs.

Sets the module fast clear register value to n. This register determines how long after the gate input the module may be cleared without providing data.

Turns on small threshold mode. The values programmed into the channel thresholds will be multiplied by 2 and then applied as the threshold for a valid conversion.

Turns off small threhodls. Threshold values for each channel will be multiplied by 16 before being applied.

A spectrodaq buffer of word wide items.

A pointer like object into a DAQWordBuffer object.

A mask of the bits in data from the digitizer that isolates the data word type field.

Data type field value for event headers. If (datum & CAEN_DATUM_TYPE) == CAEN_HEADER then datum is a CAEN module event header.

Data type field value for channel data.

Data type field value for end of event data footer longwords.

Data type field value for longwords returned when reading an event buffer that has no data.