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--- electronics [2015/10/25 09:50]
pereira
+++ electronics [2017/06/13 16:42]
pereira [Documentation]
@@ Line 2: / Line 2: @@
   * [[Electronics#Crate Configuration|Crate Configuration]]
-  * [[Electronics#Inventory Modules|Inventory Modules]]
   * [[Electronics#Electronic Diagrams|Electronic Diagrams]]
+  * [[Electronics#Firmware Schematics|Firmware Schematics]]
   * [[Electronics#Documentation|Electronic Manuals]]
   * [[Trigger|ULM Trigger module]]
@@ Line 46: / Line 46: @@
-===== Inventory Modules =====
-In progress.
 ===== Electronic Diagrams =====
-  * {{:wiki:s800electronicstschematics-to20150907.pdf|Main Electronic Diagram}}
+  * {{:wiki:s800electronicstschematics.pdf|Main Electronic Diagram}}
   * {{:wiki:crdcdiagram.pdf|CRDC Schematic Electronic Diagram}}
   * {{:wiki:ionchamber.pdf|Ion Chamber Schematic Electronics Diagram}}
@@ Line 59: / Line 57: @@
+===== Firmware Schematics =====
+  * {{:wiki:Usbtrig.pdf|Trigger module firmware (ULM LeCroy 2367 )}}
+  * {{:wiki:Stamp64.pdf|Time stamping firmware (XLM72)}}
+  * {{:wiki:Crdc5v.pdf|CRDC readout firmware (XLM72V)}}
 ===== Documentation =====
@@ Line 83: / Line 84: @@
       * {{:wiki:Manual_Ortec_TAC_566.pdf|Manual for the TAC ORTEC 566 module}}
       * {{:wiki:Manual_Canberra_HV_3002D.pdf|Manual for the HV Power Supply Canberra 3002D module}}
-  * Firmware FPGA Schematics
+      * {{:n568b_n568lc_rev4.pdf|Manual for N568B CAEN Spectroscopic amplifer}}
-      * {{:wiki:Usbtrig.pdf|Trigger module firmware (ULM LeCroy 2367 )}}
-      * {{:wiki:Stamp64.pdf|Time stamping firmware (XLM72)}}
-      * {{:wiki:Crdc5v.pdf|CRDC readout firmware (XLM72V)}}
-===== Timing =====
-In a typical S800 experiment, there are different time-of-flight (ToF) measurements that can be used to identify the fragments of interest. The most common timing-signal sources used are the RF cyclotron; the thin plastic scintillator at the A1900 focal plane box (XFP); the [[Detectors#Plastic scintillators|thin plastic scintillator at the S800 Object station (OBJ)]], and the [[Detectors#Plastic scintillators|S800 FP scintillator (E1)]] with two signals, one from the "up" and one from the "down" photomultipliers.
-Although it is possible to measure the ToF between any pair of timing sources, there are three "standard" measurements provided to any experiment, namely, between the cyclotron and the S800 FP (RF-FP); between the A1900 FP and the S800 FP (XFP-FP); and between the S800 OBJ and FP (OBJ-FP). These ToFs are electronically recorded in a {{:wiki:Manual_Phillips_TDC_7186.pdf|Phillips 7186 TDC}}, a {{:wiki:MTDC-32.pdf|Mesytec TDC}} (MTDC), and a group of {{:wiki:Manual_Ortec_TAC_566.pdf|Ortec 566 TACs}}, all them located in the [[Electronics#Crate Configuration|electronic racks in S3]], near the FP box.
-Although the timing reference ("start") in the all the ToF modules is given by the FP scintillator E1 up, the electronic path from the detector to each module is different (see {{:wiki:s800electronicstschematics-to20150907.pdf|main electronics diagram}} for more details).
-Some important things to know about each of these modules:
-=== MTDC ===
-  * This module has multi-hit capabilities and better time resolution than the Phillips TDC and TACs. However, it is not yet in production mode
-  * Before getting into the MTDC, the OBJ, XFP, and E1 up signals go through a {{:wiki:MCFD-16.pdf|Mesytec CFD (MCFD)}} in the S3 electronic racks
-  * The OBJ signal into the MCFD comes directly from the detector via S3 patch panel #94
-  * The XFP detector signal is sent to a {{:wiki:Manual_Canberra_CFD_454.pdf|CANBERRA CFD 454 CFD}} in data U6 (patch panel #1 from data U1). The output from the CFD is then sent back to the MCFD in S3 via patch panel #70
-  * The MTDC timing signals do not require external delay adjustments because the matching window is sufficiently wide
-  * SpecTcl calculates the OBJ-FP and XFP-FP ToFs by substracting the E1 up time (MTDC channel 15) to the OBJ time (MTDC channel 3) and the XFP time (MTDC channel 2)
-=== Tennelec TACs ===
-  * Unlike the MTDC and Phillips TDC, there is no TAC for the RF-FP ToF
-  * Before going to their corresponding TAC, the OBJ and XFP detector signals are sent to a {{:wiki:Manual_Canberra_CFD_454.pdf|CANBERRA CFD 454 CFD}} in data U6 via patch panel #54 and #1, respectively
-  * The OBJ output from the CANBERRA 454 CFD is sent to the stop of OBJ-FP TAC via patch panel #62
-  * The XFP output from the CANBERRA 454 CFD is sent to the stop of XFP-FP TAC via patch panel #70
-=== Phillips TDC ===
-  * Before going to the TDC, the OBJ and XFP detector signals are sent to a {{:wiki:Manual_Canberra_CFD_454.pdf|CANBERRA CFD 454 CFD}} in data U6 via patch panel #54 and #1, respectively
-  * The TDC start is provided by the [[Trigger|ULM trigger module]]. Since the delay of the S800 trigger may be adjusted during tuning of the S800 (XDT), the stop signals (e.g. from OBJ or XFP) need to be re-adjusted so that the ToF fits into the 400-ns range of the TDC. This is done manually for OBJ and XFP, and remotely (via delay GUI) for other timing signals
-  * The OBJ output signal from the CANBERRA 454 CFD is delayed with the low-noise delay boxes in data U6, and sent to the TDC via patch panel #67
-  * The XFP output signal from the CANBERRA 454 CFD is delayed with the low-noise delay boxes in data U6, and sent to the TDC via patch panel #66
-  * SpecTcl calculates the OBJ-FP and XFP-FP ToFs by substracting the E1 up time (channel 8) to the OBJ time (channel 14) and the XFP time (channel 15)

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