diff --git a/ccd_lib.py b/ccd_lib.py
index 5de831790137e088d5b39d288eddfc55e9403aef..5cfdb90ac2956c8c6d612823b0f956a81364104b 100644
--- a/ccd_lib.py
+++ b/ccd_lib.py
@@ -41,7 +41,7 @@ class CcdClass:
self.frequency = "10 MHz"
self.eeprom = EepromClass()
self.pll = PllClass()
- self.sensors = ApsctSensors()
+ self.sensors = CcdSensors()
self.ccd_id = CcdId()
def power(self, state):
@@ -188,13 +188,19 @@ class PllClass:
if DEBUG:
print(f"Divider P : {divider_p}, Divider A : {divider_a}, Divider B : {divider_b}")
charge_pump_current = 3 # 0 is low (0.6 mA), 7 is high (4.8 mA)
- self.write_byte_pll(0x04, (divider_a & 0x3F))
- self.write_byte_pll(0x05, (divider_b & 0x1F00) >> 8)
- self.write_byte_pll(0x06, (divider_b & 0x00FF))
+# self.write_byte_pll(0x04, (divider_a & 0x3F))
+ self.write_byte_pll(0x04, 0x00) # (divider_a & 0x3F))
+# self.write_byte_pll(0x05, (divider_b & 0x1F00) >> 8)
+ self.write_byte_pll(0x05, 0x00) # (divider_b & 0x1F00) >> 8)
+# self.write_byte_pll(0x06, (divider_b & 0x00FF))
+ self.write_byte_pll(0x06, 0x01) # (divider_b & 0x00FF))
self.write_byte_pll(0x07, 0x00) # No LOR
- self.write_byte_pll(0x08, 0x3B) # Charge pump normal + Status bit
- self.write_byte_pll(0x09, (charge_pump_current & 0x7) << 4)
- self.write_byte_pll(0x0A, 0x00) # Fixed Divide 1
+# self.write_byte_pll(0x08, 0x3B) # Charge pump normal + Status bit
+ self.write_byte_pll(0x08, 0x43) # Charge pump normal + Status bit
+# self.write_byte_pll(0x09, (charge_pump_current & 0x7) << 4)
+ self.write_byte_pll(0x09, 0x50) # (charge_pump_current & 0x7) << 4)
+# self.write_byte_pll(0x0A, 0x00) # Fixed Divide 1
+ self.write_byte_pll(0x0A, 0x40) # Fixed Divide 1
self.write_byte_pll(0x0B, 0x00)
self.write_byte_pll(0x0C, 0x01)
self.write_byte_pll(0x45, 0x00) # CLK2 as feedback clock input
@@ -226,7 +232,7 @@ class PllClass:
#
i2_c_io_device = I2C(0x20, BUSNR=I2CBUSNR)
i2_c_io_device.write_bytes(0x06, 0x2C) # '0' is output
- i2_c_io_device.write_bytes(0x07, 0x00) # '0' is output
+ i2_c_io_device.write_bytes(0x07, 0x0F) # '0' is output
ack, ret_value = i2_c_io_device.read_bytes(0x00, 1)
status_pll = int(ret_value, 16) & 0x04
if status_pll:
@@ -244,7 +250,7 @@ class PllClass:
#
i2_c_io_device_a = I2C(0x20, BUSNR=I2CBUSNR)
i2_c_io_device_a.write_bytes(0x06, 0x2C) # '0' is output
- i2_c_io_device_a.write_bytes(0x07, 0x00) # '0' is output
+ i2_c_io_device_a.write_bytes(0x07, 0x0F) # '0' is output
i2_c_io_device_b = I2C(0x21, BUSNR=I2CBUSNR)
i2_c_io_device_b.write_bytes(0x06, 0x2C) # '0' is output
i2_c_io_device_b.write_bytes(0x07, 0xFF) # '0' is output
@@ -337,7 +343,7 @@ class CcdSensors:
self.power_supplies = list(CCD_I2C.PWR_LOCATIONS.keys())
self.voltages = {}
self.temperature = 9999
- self.dev_i2c_sensor.write_bytes(0xB0, 0xB8)
+# self.dev_i2c_sensor.write_bytes(0xB0, 0xB8)
def ccd_sensors(self):
#
@@ -478,7 +484,7 @@ class CcdSensors:
-class CcdtId:
+class CcdId:
#
# Class to check ID pins
#
@@ -523,15 +529,13 @@ def main():
sleep(1)
Ccd.power(True)
sleep(1)
- if False:
- Ccd.pll.write_byte_pll(0x06, 0xA5)
- Ccd.pll.write_byte_pll(0x5A, 0x01)
Ccd.pll.setup_pll()
- Ccd.pll.read_lol()
+# Ccd.pll.read_lol()
Ccd.pll.read_lock()
Ccd.pll.read_all_regs_pll()
Ccd.sensors.check_values()
-
+# Ccd.eeprom.wr_rd_eeprom()
+ Ccd.ccd_id.check_id()
if __name__ == "__main__":
main()
diff --git a/set_ccd.py b/set_ccd.py
index 63fcea741009950d50935754a3d3256364b6e614..9809600290cfb98defe36f3659bafec6489d2ad8 100644
--- a/set_ccd.py
+++ b/set_ccd.py
@@ -145,6 +145,7 @@ if SET_PLL :
Write_byte_PLL(0x05, 0xF0)
Write_byte_PLL(0x06, 0x40) # cp inv = 0xF4 other 0xE4
Write_byte_PLL(0x07, 0x04) # Divider R = 1 dec
+ Read_byte_PLL(0x07, 2)
Write_byte_PLL(0x08, 0x01)
Write_byte_PLL(0x07, 0x00)
# Write_byte_PLL(0x09, 0x10) # reset
@@ -168,7 +169,8 @@ if READ_LOCK:
print("Not locked --> PLL Error")
if READ_ALL:
- Read_byte_PLL(0x00, nof_bytes = 23)
+ for cnt in range(32):
+ Read_byte_PLL(cnt, nof_bytes = 1)
if UPDATE_PLL: