#BATCHNAME TX_Initial Scripts
L6
S2 8780
# Write Register 55: Reduce xTAL Start-up
S2 D540
# Set VCO Bias Current
S2 DA03
# Set FBDIV HC and disable TX boost
S2 D940
# Set DIG Regulator to 1.5V
S2 E602

S2 E200

S2 8708
# Fine tune the crystal to remove any offset.
# Write Register 09: Crystal Oscillator Load Capacitance Register
# Step through values in this register such that the TX output is at 915Mhz (0.5 kHz)
S2 897F
S2 9D00
S2 F300
S2 F400
# Set TX output power to desired value.
# Write Register 6D: TX Power
# Power Step
S2 ED00
# Change TX Frequency from default (915MHz) to 917 MHz
# Write Register 75: Frequency Band Select Register:
S2 F575
# Write Register 76: Nominal Carrier Frequency 1 Register:
S2 F6D4
# Write Register 77: Nominal Carrier Frequency 2 Register:
S2 F780
# Set FSK mode with Internal PN9 data
# Write Register 71: Modulation Mode Control2 Register :
# modtyp[1:0] = '10' (FSK), dtmod[1:0] = '11', internally generated PN9
S2 F132
# Set GFSK mode with Internal PN9 data
# Write Register 71: Modulation Mode Control2 Register
# modtyp[1:0] = '11' (FSK), dtmod[1:0] = '11', internally generated PN9
S2 F133
# Set Data Rate = 1.2K
# Use Calculator to determine the appropriate values for the registers.
# Write Register 6E: TX Data Rate 1
S2 EE00
# Write Register 6F: TX Data Rate 0
S2 EF4F
# Set Data Rate = 100K
# Use Calculator to determine the appropriate values for the registers.
# Write Register 6E: TX Data Rate 1
S2 EE19
# Write Register 6F: TX Data Rate 0
S2 EF9A
# Set Data Rate = 50K
# Use Calculator to determine the appropriate values for the registers.
# Write Register 6E: TX Data Rate 1
S2 EE0C
# Write Register 6F: TX Data Rate 0
S2 EFCD
# Change Deviation to 100KHz
# Use Calculator to determine the appropriate values for the register.
# Write Register 72: Frequency Deviation Register.
S2 F250
# Change Deviation to 12.5KHz
# Write Register 72: Frequency Deviation Register.
S2 F214
# Change Deviation to 25KHz
# Write Register 72: Frequency Deviation Register.
S2 F228
