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Laser Heater Controls Design Overview EPICS IOC Team Meeting Matt Boyes. Personnel. Customers: LCLS Laser Group Physicists and Operators Laser Team: Sheng Peng and Matt Boyes – Software Vergne Brown – Cables and OTRs John O’Neal – Vacuum. Motivation. Motivation (cont.).
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Laser Heater ControlsDesign OverviewEPICS IOC Team MeetingMatt Boyes
Personnel Customers: • LCLS Laser Group • Physicists and Operators Laser Team: • Sheng Peng and Matt Boyes – Software • Vergne Brown – Cables and OTRs • John O’Neal – Vacuum
Motivation (cont.) The LCLS injector system will incorporate a laser-electron-beam heater system (an inverse free electron laser) in order to generate an uncorrelated energy spread in the electron beam [1]. This produces Laudau damping in the bunch compressor chicanes in order to suppress potential micro-bunching instabilities that may be driven by Coherent Synchrotron Radiation (CSR) in the bunch compressors, and Longitudinal Space Charge (LSC) forces in the linac.The laser-heater system is shown in Fig. 1. The heater system is located just downbeam of the L0b accelerator section at 135 MeV in the off-axis LCLS injector housing. _________________________________________________________ PRD 1.2-004-r2
Injector Vault Schematic Laser Heater Location
Laser Heater Optical Transport Rack location LKA-03 Transport Lines Mirror Laser Heater Rack location LIT-01
Laser Heater Required Control Items • Laser Room • Energy Control: Waveplate • Energy Measurement: Coherent EPM 2000 Power meter • 2 Sensors with Rotation Stages • Injector Vault • Laser Steering Feedback • 4 Actuators • 2 Cameras (CH1 and VHC) • 2 Waveplates for Camera Intensity Control • Energy and Time Measurements: • 2 Photodiodes • Coherent LabMax-TOP Power meters (verified as BSA compatible) • Virtual Heater Camera (VHC) adjustment • 2 Actuators • 2 OTRs
Laser Heater Optional Items • Laser Room (Additional Newport XPS Controller and IOCs Required) • Steering Loop • 2 Cameras • 4 Actuators • Path Length Control • 1 Actuator • Injector Vault (Can be supported by Newport XPS Controller for Alignment Laser) • C1 Camera adjustment: 2 Actuators
Software • Extension of existing Drive Laser System • Use existing IOCs • Many of the same types of devices • LabMax-Top Power Meter is the only new device • Verified to be BSA compatibility • Will use StreamDevice for slow RS-232 communication
Change Between Systems Heater EDM Display
Drive Laser EDM Display Change Between Systems
Laser Room Item Locations and Interfaces • Newport Rotation Stages • Use existing spare channels in XPS controllers: MOC-LR20-LS01 and MOC-LR20-LS02 • Supported by existing IOCs: IOC-LR20-LS01 and IOC-IN20-LS11 • Power Meter (PMH1 and PMH2) • Fast analog out and triggers to be connected to existing IOC: IOC-LR20-LS01 • Slow RS-232 Interface to be connected to existing laser room Digi supported by existing IOC: SIOC-LR20-00
Injector Vault Item Locations and Interfaces • Newport Stages • Stages connected to new XPS controller MOC-IN20-LS13.Controller Interface: Ethernet to patch panel in rack LIT-01 • Supported by existing IOC laser steering IOC IOC-IN20-LS11 • Waveplates for Camera Intensity Control (CH1-WP and VHC-WP) • X and Y Steering Actuators for LH Fbck Loop (MH3 and MH2) • VHC Camera X and Y Actuators • Optional CH1 Camera X and Y Actuators can be supported by existing XPS controller MOC-IN20-AM01located under gun optics table Approx 25 feet away.
Injector Vault Item Locations and Interfaces • Cameras (VHC and CH1) • CameraLink to fiber connection. • VME IOCs located in rack LIT-01 • Power Meter (PMH3) • Fast analog out and triggers to be connected to existing IOC IOC-IN20-LS11 in Rack LIT-01 • Slow RS-232Interface to be connected to existing Digiand supported by existing IOC SIOC-LR20-00
Injector Vault Item Locations and Interfaces • OTRS (OTRH2 and OTRH1) • Remove existing YAG04 and install OTRH1 OTRH2 • Cables already pulled and controllers in place at S20 Rack LKG20-13 Level:19 • Photodiodes (PDH1 and PDH2) • No control system information, Laser room diagnostic only • BNC cable already pulled to Laser Room rack LKA-0433
Laser Heater Vacuum • Two new ion pumps • Regrouped existing system to create 2 controller channels • PLC logic changed, tested and in production • One new Pirani gauge • Installed on laser heater transport line near laser table • System initially designed to support extra laser Pirani gauge, no software work • Possibly two new cold cathode gauges • Paired with Pirani gauges • Software and hardware reconfiguration required to support • Additional laser room turbo cart with no control system interface
Laser Heater Vacuum (cont.) • Drive laser and heater transport vacuum connected in laser room Ion pump, gauges, & turbo cart connection
Laser Heater Vacuum (cont.) Location of injector vault heater transport ion pump and gauges