## ## This file is part of the libsigrokdecode project. ## ## Copyright (C) 2017 Joel Holdsworth ## ## This program is free software; you can redistribute it and/or modify ## it under the terms of the GNU General Public License as published by ## the Free Software Foundation; either version 3 of the License, or ## (at your option) any later version. ## ## This program is distributed in the hope that it will be useful, ## but WITHOUT ANY WARRANTY; without even the implied warranty of ## MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ## GNU General Public License for more details. ## ## You should have received a copy of the GNU General Public License ## along with this program; if not, see . ## import sigrokdecode as srd def disabled_enabled(v): return ['Disabled', 'Enabled'][v] def output_power(v): return '%+ddBm' % [-4, -1, 2, 5][v] regs = { # reg: name offset width parser 0: [ ('FRAC', 3, 12, None), ('INT', 15, 16, lambda v: 'Not Allowed' if v < 32 else v) ], 1: [ ('MOD', 3, 12, None), ('Phase', 15, 12, None), ('Prescalar', 27, 1, lambda v: ['4/5', '8/9'][v]), ('Phase Adjust', 28, 1, lambda v: ['Off', 'On'][v]), ], 2: [ ('Counter Reset', 3, 1, disabled_enabled), ('Charge Pump Three-State', 4, 1, disabled_enabled), ('Power-Down', 5, 1, disabled_enabled), ('PD Polarity', 6, 1, lambda v: ['Negative', 'Positive'][v]), ('LDP', 7, 1, lambda v: ['10ns', '6ns'][v]), ('LDF', 8, 1, lambda v: ['FRAC-N', 'INT-N'][v]), ('Charge Pump Current Setting', 9, 4, lambda v: '%0.2fmA @ 5.1kΩ' % [0.31, 0.63, 0.94, 1.25, 1.56, 1.88, 2.19, 2.50, 2.81, 3.13, 3.44, 3.75, 4.06, 4.38, 4.69, 5.00][v]), ('Double Buffer', 13, 1, disabled_enabled), ('R Counter', 14, 10, None), ('RDIV2', 24, 1, disabled_enabled), ('Reference Doubler', 25, 1, disabled_enabled), ('MUXOUT', 26, 3, lambda v: ['Three-State Output', 'DVdd', 'DGND', 'R Counter Output', 'N Divider Output', 'Analog Lock Detect', 'Digital Lock Detect', 'Reserved'][v]), ('Low Noise and Low Spur Modes', 29, 2, lambda v: ['Low Noise Mode', 'Reserved', 'Reserved', 'Low Spur Mode'][v]) ], 3: [ ('Clock Divider', 3, 12, None), ('Clock Divider Mode', 15, 2, lambda v: ['Clock Divider Off', 'Fast Lock Enable', 'Resync Enable', 'Reserved'][v]), ('CSR Enable', 18, 1, disabled_enabled), ('Charge Cancellation', 21, 1, disabled_enabled), ('ABP', 22, 1, lambda v: ['6ns (FRAC-N)', '3ns (INT-N)'][v]), ('Band Select Clock Mode', 23, 1, lambda v: ['Low', 'High'][v]) ], 4: [ ('Output Power', 3, 2, output_power), ('Output Enable', 5, 1, disabled_enabled), ('AUX Output Power', 6, 2, output_power), ('AUX Output Select', 8, 1, lambda v: ['Divided Output', 'Fundamental'][v]), ('AUX Output Enable', 9, 1, disabled_enabled), ('MTLD', 10, 1, disabled_enabled), ('VCO Power-Down', 11, 1, lambda v: 'VCO Powered ' + ('Down' if v == 1 else 'Up')), ('Band Select Clock Divider', 12, 8, None), ('RF Divider Select', 20, 3, lambda v: '÷' + str(2**v)), ('Feedback Select', 23, 1, lambda v: ['Divided', 'Fundamental'][v]), ], 5: [ ('LD Pin Mode', 22, 2, lambda v: ['Low', 'Digital Lock Detect', 'Low', 'High'][v]) ] } ANN_REG = 0 class Decoder(srd.Decoder): api_version = 3 id = 'adf435x' name = 'ADF435x' longname = 'Analog Devices ADF4350/1' desc = 'Wideband synthesizer with integrated VCO.' license = 'gplv3+' inputs = ['spi'] outputs = [] tags = ['Clock/timing', 'IC', 'Wireless/RF'] annotations = ( # Sent from the host to the chip. ('register', 'Register written to the device'), ) annotation_rows = ( ('registers', 'Register writes', (ANN_REG,)), ) def __init__(self): self.reset() def reset(self): self.bits = [] def start(self): self.out_ann = self.register(srd.OUTPUT_ANN) def decode_bits(self, offset, width): return (sum([(1 << i) if self.bits[offset + i][0] else 0 for i in range(width)]), (self.bits[offset + width - 1][1], self.bits[offset][2])) def decode_field(self, name, offset, width, parser): val, pos = self.decode_bits(offset, width) self.put(pos[0], pos[1], self.out_ann, [ANN_REG, ['%s: %s' % (name, parser(val) if parser else str(val))]]) return val def decode(self, ss, es, data): ptype, data1, data2 = data if ptype == 'CS-CHANGE': if data1 == 1: if len(self.bits) == 32: reg_value, reg_pos = self.decode_bits(0, 3) self.put(reg_pos[0], reg_pos[1], self.out_ann, [ANN_REG, ['Register: %d' % reg_value, 'Reg: %d' % reg_value, '[%d]' % reg_value]]) if reg_value < len(regs): field_descs = regs[reg_value] for field_desc in field_descs: field = self.decode_field(*field_desc) self.bits = [] if ptype == 'BITS': self.bits = data1 + self.bits