Пример #1
0
def define_XAFSEpicsMotor(prefix, name='unnamed'):
    '''Deal gracefully with a motor whose IOC is not running or whose
    controller is turned off.  See discussion at the top of
    BMM/user_ns/instruments.py
    '''
    this = XAFSEpicsMotor(prefix, name=name)
    count = 0
    while this.connected is False:  #  try for no more than 3 seconds
        count += 1
        time.sleep(0.5)
        if count > 6:
            break
    if this.connected is False:
        this = SynAxis(name=name)
    return (this)
Пример #2
0
## collimating mirror
print(f'{TAB}FMBO motor group: m1')
m1 = Mirrors('XF:06BM-OP{Mir:M1-Ax:',
             name='m1',
             mirror_length=556,
             mirror_width=240)
m1.vertical._limits = (-5.0, 5.0)
m1.lateral._limits = (-5.0, 5.0)
m1.pitch._limits = (-5.0, 5.0)
m1.roll._limits = (-5.0, 5.0)
m1.yaw._limits = (-5.0, 5.0)

wait_for_connection(m1)

if m1.connected is True:
    m1_yu = XAFSEpicsMotor('XF:06BM-OP{Mir:M1-Ax:YU}Mtr', name='m1_yu')
    m1_ydo = XAFSEpicsMotor('XF:06BM-OP{Mir:M1-Ax:YDO}Mtr', name='m1_ydo')
    m1_ydi = XAFSEpicsMotor('XF:06BM-OP{Mir:M1-Ax:YDI}Mtr', name='m1_ydi')
    m1_xu = XAFSEpicsMotor('XF:06BM-OP{Mir:M1-Ax:XU}Mtr', name='m1_xu')
    m1_xd = XAFSEpicsMotor('XF:06BM-OP{Mir:M1-Ax:XD}Mtr', name='m1_xd')
else:
    m1_yu = SynAxis(name='m1_yu')
    m1_ydo = SynAxis(name='m1_ydo')
    m1_ydi = SynAxis(name='m1_ydi')
    m1_xu = SynAxis(name='m1_xu')
    m1_xd = SynAxis(name='m1_xd')

m1list = [m1_yu, m1_ydo, m1_ydi, m1_xu, m1_xd]
mcs8_motors.extend(m1list)

## focusing mirror
Пример #3
0
                                  name='fe_slits_horizontal2')
fe_slits_incline2 = EpicsMotor('FE:C06B-OP{Slt:2-Ax:Inc}Mtr',
                               name='fe_slits_incline2')
fe_slits_i = EpicsMotor('FE:C06B-OP{Slt:2-Ax:I}Mtr', name='fe_slits_i')
fe_slits_b = EpicsMotor('FE:C06B-OP{Slt:2-Ax:B}Mtr', name='fe_slits_b')
fe_slits_hsize = EpicsSignalRO('FE:C06B-OP{Slt:12-Ax:X}size',
                               name='fe_slits_hsize')
fe_slits_vsize = EpicsSignalRO('FE:C06B-OP{Slt:12-Ax:Y}size',
                               name='fe_slits_vsize')
fe_slits_hcenter = EpicsSignalRO('FE:C06B-OP{Slt:12-Ax:X}center',
                                 name='fe_slits_hcenter')
fe_slits_vcenter = EpicsSignalRO('FE:C06B-OP{Slt:12-Ax:Y}center',
                                 name='fe_slits_vcenter')

## collimating mirror
m1_yu = XAFSEpicsMotor('XF:06BM-OP{Mir:M1-Ax:YU}Mtr', name='m1_yu')
m1_ydo = XAFSEpicsMotor('XF:06BM-OP{Mir:M1-Ax:YDO}Mtr', name='m1_ydo')
m1_ydi = XAFSEpicsMotor('XF:06BM-OP{Mir:M1-Ax:YDI}Mtr', name='m1_ydi')
m1_xu = XAFSEpicsMotor('XF:06BM-OP{Mir:M1-Ax:XU}Mtr', name='m1_xu')
m1_xd = XAFSEpicsMotor('XF:06BM-OP{Mir:M1-Ax:XD}Mtr', name='m1_xd')
mcs8_motors.extend([m1_yu, m1_ydo, m1_ydi, m1_xu, m1_xd])

## DM1
dm1_filters1 = XAFSEpicsMotor('XF:06BMA-BI{Fltr:01-Ax:Y1}Mtr',
                              name='dm1_filters1')
dm1_filters2 = XAFSEpicsMotor('XF:06BMA-BI{Fltr:01-Ax:Y2}Mtr',
                              name='dm1_filters2')
mcs8_motors.extend([dm1_filters1, dm1_filters2])
dm1_filters2.llm.put(-52)

## monochromator
## http://patorjk.com/software/taag/#p=display&f=Doom&t=MIRRORS

#################################################
# ___  ____________________ ___________  _____  #
# |  \/  |_   _| ___ \ ___ \  _  | ___ \/  ___| #
# | .  . | | | | |_/ / |_/ / | | | |_/ /\ `--.  #
# | |\/| | | | |    /|    /| | | |    /  `--. \ #
# | |  | |_| |_| |\ \| |\ \\ \_/ / |\ \ /\__/ / #
# \_|  |_/\___/\_| \_\_| \_|\___/\_| \_|\____/  #
#################################################

run_report('\tmirrors')
from BMM.motors import XAFSEpicsMotor, Mirrors, XAFSTable, GonioTable

## harmonic rejection mirror
m3_yu = XAFSEpicsMotor('XF:06BMA-OP{Mir:M3-Ax:YU}Mtr', name='m3_yu')
m3_ydo = XAFSEpicsMotor('XF:06BMA-OP{Mir:M3-Ax:YDO}Mtr', name='m3_ydo')
m3_ydi = XAFSEpicsMotor('XF:06BMA-OP{Mir:M3-Ax:YDI}Mtr', name='m3_ydi')
m3_xu = XAFSEpicsMotor('XF:06BMA-OP{Mir:M3-Ax:XU}Mtr', name='m3_xu')
m3_xd = XAFSEpicsMotor('XF:06BMA-OP{Mir:M3-Ax:XD}Mtr', name='m3_xd')
mcs8_motors.extend([m3_yu, m3_ydo, m3_ydi, m3_xu, m3_xd])

m1 = Mirrors('XF:06BM-OP{Mir:M1-Ax:',
             name='m1',
             mirror_length=556,
             mirror_width=240)
m1.vertical._limits = (-5.0, 5.0)
m1.lateral._limits = (-5.0, 5.0)
m1.pitch._limits = (-5.0, 5.0)
m1.roll._limits = (-5.0, 5.0)
m1.yaw._limits = (-5.0, 5.0)
Пример #5
0
TAB = '\t\t\t'

dcm = False
from BMM.dcm import DCM
#from BMM.user_ns.motors import dcm_x

dcm = DCM('XF:06BMA-OP{Mono:DCM1-Ax:', name='dcm', crystal='111')
wait_for_connection(dcm)

print(f'{TAB}FMBO motor group: dcm')
if dcm.connected is True:
    if hasattr(dcm.bragg,
               'tolerance'):  # relevant to Jamie's DeadbandEpicsMotor
        dcm.bragg.tolerance.put(0.0001)

    dcm_bragg = XAFSEpicsMotor('XF:06BMA-OP{Mono:DCM1-Ax:Bragg}Mtr',
                               name='dcm_bragg')
    dcm_pitch = VacuumEpicsMotor('XF:06BMA-OP{Mono:DCM1-Ax:P2}Mtr',
                                 name='dcm_pitch')
    dcm_roll = VacuumEpicsMotor('XF:06BMA-OP{Mono:DCM1-Ax:R2}Mtr',
                                name='dcm_roll')
    dcm_perp = XAFSEpicsMotor('XF:06BMA-OP{Mono:DCM1-Ax:Per2}Mtr',
                              name='dcm_perp')
    dcm_para = XAFSEpicsMotor('XF:06BMA-OP{Mono:DCM1-Ax:Par2}Mtr',
                              name='dcm_para')
    dcm_x = XAFSEpicsMotor('XF:06BMA-OP{Mono:DCM1-Ax:X}Mtr', name='dcm_x')
    dcm_y = XAFSEpicsMotor('XF:06BMA-OP{Mono:DCM1-Ax:Y}Mtr', name='dcm_y')

    dcm_para.hlm.put(161)  # this is 21200 on the Si(111) mono
    #                            # hard limit is at 162.48

    if hasattr(dcm_bragg,