From 0e3912767266473e08386c910954450d16d33664 Mon Sep 17 00:00:00 2001 From: Ben Hilburn Date: Wed, 27 Nov 2013 11:53:38 -0800 Subject: Squashed commit uhd/cleanup. --- firmware/octoclock/Makefile | 16 +- firmware/octoclock/OctoClock-io.h | 70 --- firmware/octoclock/OctoClock.c | 1103 ++++++++++++++----------------------- 3 files changed, 438 insertions(+), 751 deletions(-) delete mode 100644 firmware/octoclock/OctoClock-io.h (limited to 'firmware/octoclock') diff --git a/firmware/octoclock/Makefile b/firmware/octoclock/Makefile index 517dee4c5..acf26f617 100644 --- a/firmware/octoclock/Makefile +++ b/firmware/octoclock/Makefile @@ -1,6 +1,19 @@ # # Copyright 2009 Ettus Research LLC # +# 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 . +# ################################################## # Compiler @@ -19,7 +32,6 @@ CFLAGS = -std=gnu99 -O2 ################################################## # Files ################################################## -HDRS = OctoClock-io.h SRCS = OctoClock.c TARGET = octoclock_fw @@ -52,5 +64,5 @@ $(TARGET).hex: $(TARGET).elf $(TARGET).elf: $(SRCS:.c=.o) $(CC) -mmcu=$(MMCU) $^ -o $@ -%.o: %.c $(HDRS) Makefile +%.o: %.c Makefile $(CC) -mmcu=$(MMCU) -c $< -o $@ $(CFLAGS) diff --git a/firmware/octoclock/OctoClock-io.h b/firmware/octoclock/OctoClock-io.h deleted file mode 100644 index 88cd1499b..000000000 --- a/firmware/octoclock/OctoClock-io.h +++ /dev/null @@ -1,70 +0,0 @@ -/* - * Copyright 2009 Ettus Research LLC - */ - -#ifndef IO_H -#define IO_H - -#include -#include - - -typedef int8_t i8; -typedef int16_t i16; -typedef int32_t i32; -typedef int64_t i64; - - -typedef uint8_t u8; -typedef uint16_t u16; -typedef uint32_t u32; -typedef uint64_t u64; - - -typedef float f32; -typedef double f64; -typedef long double f128; - -typedef int error_indicator; /* A type for functions, usually... */ -typedef unsigned int boolean; /* "natural" type */ - -typedef char c8; /* 8-bit character */ -typedef unsigned char uc8; /* 8-bit character, unsigned*/ -/* it is sometimes useful to*/ -/* make the distinction*/ - -#ifdef FALSE -#undef FALSE -#endif -#define FALSE (0) - -#ifdef TRUE -#undef TRUE -#endif -#define TRUE (!FALSE) - -#define is :{ -#define esac break;} - - -// This other crap can be deleted, below, between the #if 0 and #endif inclusive - -#if 0 - -#define IO_PX(port, pin) ((uint8_t)(((port - 'A') << 4) + pin)) -#define IO_PA(pin) IO_PX('A', pin) -#define IO_PB(pin) IO_PX('B', pin) -#define IO_PC(pin) IO_PX('C', pin) -#define IO_PD(pin) IO_PX('D', pin) - -typedef const uint8_t io_pin_t; - -void io_output_pin(io_pin_t pin); -void io_input_pin(io_pin_t pin); -void io_set_pin(io_pin_t pin); -void io_clear_pin(io_pin_t pin); -bool io_test_pin(io_pin_t pin); - -#endif //if 0 - -#endif /* IO_H */ diff --git a/firmware/octoclock/OctoClock.c b/firmware/octoclock/OctoClock.c index d81a93fc3..f73c30885 100644 --- a/firmware/octoclock/OctoClock.c +++ b/firmware/octoclock/OctoClock.c @@ -1,844 +1,589 @@ /* - * OctoClock.c - * - * V1.00 -- May 2013 - * - * - * V1.03 -- Correct the switch to be UP for Internal and DOWN for External - * This means that the bat handle "points at" (sort of) the lower-left LED, which - * is the "STATUS" LED, which gets lit up when the external 10 MHz is present - * The "10 MHz Signal Detect" code accepts a very wide range of "10 MHz" signals - * 23 April 2013 - * + * Copyright 2013 Ettus Research LLC * - * V1.02 -- Make LEDs consistent with Chassis - Top LED is INTERNAL; middle is EXTERNAL; bottom is STATUS + * 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. * - * STATUS is ON if the 10 MHz external input is present. 19 April 2013 + * 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 . + */ + +/* + * Welcome to the firmware code for the USRP Octoclock accessory product! * - * V1.01: Modify TI chip initialization to be in differentail mode - * which allows 10 MHz input down to 0.1 Volts according to the datasheet. + * Notes regarding this firmware: + * NOT in M103 compatibility mode + * no WDT + * CKOPT full rail-to-rail + * xtal osc + * 16K CK (16K clock cycles) + * additional delay 65ms for Crystal Oscillator + * slowly rising power * + * These settings are very conservative. If a lower power oscillator is + * required, change CKOPT to '1' (UNPROGRAMMED). * - * New Version that supports CLOCK board Version 1.0 + * M103C = [ ] + * WDTON = [ ] + * OCDEN = [ ] + * JTAGEN = [X] + * SPIEN = [X] + * EESAVE = [ ] + * BOOTSZ = 4096W_F000 + * BOOTRST = [ ] + * CKOPT = [X] + * BODLEVEL = 2V7 + * BODEN = [ ] + * SUT_CKSEL = EXTHIFXTALRES_16KCK_64MS * - * Author: Michael@Cheponis.Com with code borrowed liberally from - * previous AVR projects + * EXTENDED = 0xFF (valid) + * HIGH = 0x89 (valid) + * LOW = 0xFF (valid) * */ -/* - * Copyright 2013 Ettus Research LLC - */ - - - - - - -/* CLKSEL0 = 1 SUT1..0 is 11 CKOPT = 0 CKSEL3..1 is 111 => big output swing, long time to start up */ -/* - -NOT in M103 compatibility mode, no WDT, CKOPT full rail-to-rail xtal osc, 16K CK (16K clock cycles), -additional delay 65ms for Crystal Oscillator, slowly rising power - -Very conservative settings; if lower power osc required, change CKOPT to '1' (UNPROGRAMMED) or, if you will, -CKOPT = [ ] - - - -M103C = [ ] -WDTON = [ ] -OCDEN = [ ] -JTAGEN = [X] -SPIEN = [X] -EESAVE = [ ] -BOOTSZ = 4096W_F000 -BOOTRST = [ ] -CKOPT = [X] -BODLEVEL = 2V7 -BODEN = [ ] -SUT_CKSEL = EXTHIFXTALRES_16KCK_64MS - -EXTENDED = 0xFF (valid) -HIGH = 0x89 (valid) -LOW = 0xFF (valid) - - -*/ - -// No interrupts are required - -#include "OctoClock-io.h" - +#include +#include #include #include - #ifdef On #undef On #endif #ifdef Off -#undef OFf +#undef Off #endif -#define Off (0) -#define On (!Off) - +#define Off (0) +#define On (!Off) -// Important for the Serial Port, not used at the moment -#define FOSC (7372800) -#define BAUD (115200) +#ifdef FALSE +#undef FALSE +#endif -#define MYUBRR FOSC/16/BAUD-1 +#ifdef TRUE +#undef TRUE +#endif +#define FALSE (0) +#define TRUE (!FALSE) -#define wait() for(u16 u=14000; u; u--) asm("nop"); +// Important for the Serial Port, not used at the moment +#define FOSC (7372800) +#define BAUD (115200) +#define MYUBRR FOSC/16/BAUD-1 -enum LEDs {Top,Middle,Bottom}; // Top is 0, Mid is 1, and Bottom is 2 +#define wait() for(uint16_t u=14000; u; u--) asm("nop"); -void -led(enum LEDs which, int turn_it_on){ - - u8 LED = 0x20 << which; // selects the proper bit - - if(turn_it_on) - PORTC |= LED; - else - PORTC &= ~LED; - -} +#define CLK (PA0) // Shift by 0 bits +#define CE_ (PA1) // Is really the "Chip Disable" signal, as Hi disables SPI +#define MOSI (PA2) +#define MISO (PA3) +#define PD_ (PA4) +#define SYNC_ (PA5) +// Top is 0, Mid is 1, and Bottom is 2 +enum LEDs {Top, Middle, Bottom}; enum TI_Input_10_MHz {Primary_GPS, Secondary_Ext}; -void setup_TI_CDCE18005(enum TI_Input_10_MHz); - - +enum Levels {Lo, Hi}; +void led(enum LEDs which, int turn_it_on) { -/***************************************************************************************** + // selects the proper bit + uint8_t LED = 0x20 << which; - SPI routines + if(turn_it_on) + PORTC |= LED; + else + PORTC &= ~LED; +} -******************************************************************************************/ +/******************************************************************************* +* SPI routines +*******************************************************************************/ +/* All macros evaluate to compile-time constants */ -/* All macros evaluate to compile-time constants */ - -/* *** helper macros * * */ - /* turn a numeric literal into a hex constant - (avoids problems with leading zeros) - 8-bit constants max value 0x11111111, always fits in unsigned long + * (avoids problems with leading zeros) + * 8-bit constants max value 0x11111111, always fits in unsigned long */ - #define HEX__(n) 0x##n##LU - +#define HEX__(n) 0x##n##LU + /* 8-bit conversion function */ - #define B8__(x) ((x&0x0000000FLU)?1:0) \ - +((x&0x000000F0LU)?2:0) \ - +((x&0x00000F00LU)?4:0) \ - +((x&0x0000F000LU)?8:0) \ - +((x&0x000F0000LU)?16:0) \ - +((x&0x00F00000LU)?32:0) \ - +((x&0x0F000000LU)?64:0) \ - +((x&0xF0000000LU)?128:0) - -// Damn, that is SERIOUS magic ... ;-) Yes, I know how it works -// but it's pretty cool.... - - -/* *** user macros *** */ - -/* for upto 8-bit binary constants */ - #define Bits_8(d) ((unsigned char)B8__(HEX__(d))) - -/* for upto 16-bit binary constants, MSB first */ - #define Bits_16(dmsb,dlsb) (((unsigned short)Bits_8(dmsb)<<8) \ - + Bits_8(dlsb)) - -/* for upto 32-bit binary constants, MSB first */ - #define Bits_32(dmsb,db2,db3,dlsb) (((unsigned long)Bits_8(dmsb)<<24) \ - + ((unsigned long)Bits_8(db2)<<16) \ - + ((unsigned long)Bits_8(db3)<<8) \ - + Bits_8(dlsb)) - +#define B8__(x) ((x&0x0000000FLU)?1:0) \ + +((x&0x000000F0LU)?2:0) \ + +((x&0x00000F00LU)?4:0) \ + +((x&0x0000F000LU)?8:0) \ + +((x&0x000F0000LU)?16:0) \ + +((x&0x00F00000LU)?32:0) \ + +((x&0x0F000000LU)?64:0) \ + +((x&0xF0000000LU)?128:0) + +/* for up to 8-bit binary constants */ +#define Bits_8(d) ((unsigned char)B8__(HEX__(d))) + +/* for up to 16-bit binary constants, MSB first */ +#define Bits_16(dmsb,dlsb) (((unsigned short)Bits_8(dmsb)<<8) \ + + Bits_8(dlsb)) + +/* for up to 32-bit binary constants, MSB first */ +#define Bits_32(dmsb,db2,db3,dlsb) (((unsigned long)Bits_8(dmsb)<<24) \ + + ((unsigned long)Bits_8(db2)<<16) \ + + ((unsigned long)Bits_8(db3)<<8) \ + + Bits_8(dlsb)) + /* Sample usage: - Bits_8(01010101) = 85 - Bits_16(10101010,01010101) = 43605 - Bits_32(10000000,11111111,10101010,01010101) = 2164238933 + * Bits_8(01010101) = 85 + * Bits_16(10101010,01010101) = 43605 + * Bits_32(10000000,11111111,10101010,01010101) = 2164238933 */ - - -enum CDCE18005 {Reg0, Reg1, Reg2, Reg3, Reg4, Reg5, Reg6, Reg7, Reg8_Status_Control, - Read_Command=0xE, RAM_EEPROM_Unlock=0x1F, RAM_EEPROM_Lock=0x3f} - TI_CDCE18005; - -// Table of 32-bit constants to be written to the TI chip's registers. - -// Damn, inconsistent data sheet! Special settigns see p35 of TI datasheet +enum CDCE18005 { + Reg0, Reg1, Reg2, Reg3, Reg4, Reg5, Reg6, Reg7, + Reg8_Status_Control, + Read_Command=0xE, + RAM_EEPROM_Unlock=0x1F, + RAM_EEPROM_Lock=0x3f +} TI_CDCE18005; +// Table of 32-bit constants to be written to the TI chip's registers. These are +// from the "Special Settings" on Page 35 of the datasheet. // For the GPS's 10 MHz output -u32 table_Pri_Ref[] = { - - Bits_32(1,01010100,0,0), // Reg 0 - Bits_32(1,01010100,0,0), // Outputs LVCMOS Positive&Negative Active - Non-inverted - Bits_32(1,01010100,0,0), - Bits_32(1,01010100,0,0), - Bits_32(1,01010100,0,0), // All have output divide ratio to be 1; Aux Output is OFF - - Bits_32(0,0,1001,11010100), // Reg 5 LVCMOS in; p31 of TI datasheet - - Bits_32(1,0,0010000,0), // Reg 6 // SCAS863A – NOVEMBER 2008 – REVISED JUNE 2011 - - Bits_32(1,01000000,0,0), // Reg 7 - // 76543210 - Bits_32(0,0,1,10000000) // Reg8 Status/Control +uint32_t table_Pri_Ref[] = { + Bits_32(1,01010100,0,0), // Reg 0 + Bits_32(1,01010100,0,0), // Outputs LVCMOS Positive&Negative Active - Non-inverted + Bits_32(1,01010100,0,0), + Bits_32(1,01010100,0,0), + Bits_32(1,01010100,0,0), // All have output divide ratio to be 1; Aux Output is OFF + Bits_32(0,0,1001,11010100), // Reg 5 LVCMOS in; p31 of TI datasheet + Bits_32(1,0,0010000,0), // Reg 6 // SCAS863A – NOVEMBER 2008 – REVISED JUNE 2011 + Bits_32(1,01000000,0,0), // Reg 7 + Bits_32(0,0,1,10000000) // Reg8 Status/Control }; - -// Looks like it's doing the correct thing re: SPI interface -// This is *definitely* AC coupled. I removed those resistors to +3.3 and ground -// signal looked no different with differential measurement. Added 240+470 to -// center tap of secondary side to bias up to approx 1.2V for proper LVDS -// -// For the External 10 MHz input LVDS with external termination -- Effectively DC coupled - -u32 table_Sec_Ref[] = { - Bits_32(0001,01010100,0,100000),// Reg 0 -- use Secondary Reference for all channels - Bits_32(0001,01010100,0,100000),// Outputs LVCMOS Positive&Negative Active - Non-inverted - Bits_32(0001,01010100,0,100000), - Bits_32(0001,01010100,0,100000), - Bits_32(0001,01010100,0,100000), - -// Bits_32(0,0,00001000,10010111), // Reg 5 LVDS with External Termination p32 of TI datasheet -// Bits_32(0,0,00001000,11010111), // Reg 5 LVDS with INTERNAL Termination p32 of TI datasheet - -// May 2013 -- Turn OFF the LVDS Safe Mode, as it supposedly causes input thresholds to be increased. - -// Bits_32(0,0,1001,10011011), // Reg 5, try again. Pretty soon, try new board... - - Bits_32(0,0,1,10011011), // Reg 5, Failsafe OFF b5.11 = 0 - - -// Bits_32(0,0,1001,11011011), // Reg 5, try again. Pretty soon, try new board... - // Try with DC input termination; bit 6 is a "1" 2013 March - // Seems to not work correctly. - - -// Bits_32(1,0,0000000,0), // Reg 6; note that 6.12 must be 1 for LVDS w/External Termination, 0 int -// Bits_32(1,0,0000000,0), // Reg 6; try Internal and DC coupling - Bits_32(1,0,10000,0), // Reg 6; try again - - Bits_32(1,01000000,0,0), - Bits_32(0,0,1,10000000) // Reg8 Status/Control +// For the External 10 MHz input LVDS with external termination, +// Effectively DC coupled +uint32_t table_Sec_Ref[] = { + Bits_32(0001,01010100,0,100000), // Reg 0 -- use Secondary Reference for all channels + Bits_32(0001,01010100,0,100000), // Outputs LVCMOS Positive&Negative Active - Non-inverted + Bits_32(0001,01010100,0,100000), + Bits_32(0001,01010100,0,100000), + Bits_32(0001,01010100,0,100000), + Bits_32(0,0,1,10011011), // Reg 5, Failsafe OFF b5.11 = 0 + Bits_32(1,0,10000,0), // Reg 6; try again + Bits_32(1,01000000,0,0), + Bits_32(0,0,1,10000000) // Reg8 Status/Control }; -//; Table 19 conflicts with Tables 5 thru 9 - in how LVCMOS outputs are defined +// Table 19 conflicts with Tables 5 thru 9 - in how LVCMOS outputs are defined // extra error in Table 9, for bits 24 and 25 -// -// Could combine these into just table[][] with 1st subscript being 0 or 1 for Primary or Secondary -// Maybe want to to that. +int table_size = sizeof (table_Pri_Ref) / sizeof(uint32_t); -int table_size = sizeof (table_Pri_Ref) / sizeof(u32); -//int table_size = 1; // Testing read and write of Register 0 -- don't want excess SPI transactions -//NOTE!!! Still need to shift left by 4 and OR in register, as defined in TI_CDCE18005 enum, above. +void set_bit(uint8_t bit_number, enum Levels bit_value) { - -enum Levels {Lo, Hi}; - -#define CLK (PA0) // Shift by 0 bits (PA.0) -#define CE_ (PA1) // Is really the "Chip Disable" signal, as Hi disables SPI -#define MOSI (PA2) -#define MISO (PA3) -#define PD_ (PA4) -#define SYNC_ (PA5) - -void -set_bit(u8 bit_number, enum Levels bit_value){ - - if(bit_value == Hi) - PORTA |= 1<> 4)], Control ); -// USART_Transmit( hex_table [0xf & portA], Control ); -// USART_Transmit(CR, Control); USART_Transmit(LF,Control); - - return (portA & 1<< bit_number) > 0 ? TRUE : FALSE; - //return (portA & 8) != 0; // It's always MISO, so nail it for the moment + uint8_t portA = PINA; + return (portA & 1<< bit_number) > 0 ? TRUE : FALSE; } - -void -send_SPI(u32 bits){ // Send 32 bits to TI chip, LSB first. -// Don't worry about reading any bits back at this -// time, although for production, may want to do that -// as an error-check / integrity check. +// Don't worry about reading any bits back at this time +void send_SPI(uint32_t bits) { + + // Basically, when the clock is low, one can set MOSI to anything, as it's + // ignored. + set_bit(CE_, Lo); // Start SPI transaction with TI chip + + // Send each bit, LSB first, add a bit of delay before the clock, and then + // toggle the clock line. + for (uint8_t i=0; i<32; i++) { + set_bit(MOSI, ((bits & (1UL<H on clock; (REALLY?) - set_bit(CLK, Hi); - set_bit(CLK, Lo); // Pulse the clock to clock in the bit - } -// USART_Transmit(CR, Control); USART_Transmit(LF,Control); - //set_bit(MOSI, Lo); // Not needed, but keeps all bits zeros except /CE when idle - set_bit(CE_, Hi); // OK, transaction is over -// USART_Transmit(CR, Control); USART_Transmit(LF,Control); + // OK, transaction is over + set_bit(CE_, Hi); } -// Takes about 7.6 ms to init all regs (as seen on scope) -// There is a very interesting phenomenon that is occurring --- The bit-to-bit time -// at the beginning of transmission is 15 usec. However, as the number of bits -// shifted to the left increases (as i increases in the for() loop ) -// the time between bits elongates. It's about 37 usec between bits -// 30 and 31 (the last 2 bits). It's kinda cool, because it's easy to -// know when the new word begins because the clock pulses will be -// closer together. - -// See if it checks: (15+37)/2 = 26 usec between average bits -// 32 bits * 9 words * 26 usec = 7.49 ms --- but have to add -// in the little bit of time that CE_ goes high; so 7.6 ms -// is a very reasonable number. (Assumes linear increase in -// time as the number of shifts goes up, which seems to -// work OK here.) -// -// Of course, using a table instead of doing those shifts all the -// time would fix this; but it (should not) doesn't matter for this -// SPI interface. -// -// So far, the first word looks good, and the beginning of writing -// Register 1 also looks good. -// +void reset_TI_CDCE18005() { + // First, reset the chip. Or, if you will, pull /SYNC low then high + set_bit(CE_, Hi); + set_bit(PD_, Lo); + wait(); + // Out of Power Down state + set_bit(PD_, Hi); + wait(); + set_bit(SYNC_, Lo); + wait(); + set_bit(SYNC_, Hi); - - - -// enum TI_Input_10_MHz {Primary_GPS, Secondary_Ext}; - -void -reset_TI_CDCE18005(){ -// First, reset the chip. Or, if you will, pull /SYNC low then high -set_bit(CE_, Hi); -set_bit(PD_, Lo); -wait(); // This should put the EEPROM bits into the RAM -- we don't care, but should init the chip - -set_bit(PD_, Hi); // Out of Power Down state -wait(); - -set_bit(SYNC_, Lo); -wait(); -set_bit(SYNC_, Hi); - -wait(); -// Now, by gosh, that darn chip ought to be fully enabled! -} - -void -setup_TI_CDCE18005(enum TI_Input_10_MHz which_input){ - // Send the table of data to init the clock distribution chip. Uses SPI. - u32 temp; - - //reset_TI_CDCE18005(); // This REALLY should not be necessary - - if(which_input == Primary_GPS){ - - for(u8 i=0; i>= 1; // get ready for next bit - NOTE: Only do this if we REALLY are putting in another bit - set_bit(CLK, Hi); // CPU is so slow, it easily meets setup & hold times - // 76543210 - if( get_bit(MISO) ) bits |= 0x80000000; // because we receive the LSB first - set_bit(CLK, Lo); // Pulse the clock to clock in the bit - } - set_bit(CE_, Hi); // OK, transaction is over - - return (u32)(bits >> 4); // Ditch the lower 4 bits, which only contain the address + wait(); } -u32 -get_TI_CDCE18005(enum CDCE18005 which_register){ - u32 get_reg_value; - - get_reg_value = 0; - get_reg_value = (0xf0 & which_register << 4) | Read_Command; - send_SPI(get_reg_value); // This tells the TI chip to send us the reg. value requested - return receive_SPI(); -}; +void setup_TI_CDCE18005(enum TI_Input_10_MHz which_input) { + // Send the table of data to init the clock distribution chip. Uses SPI. + uint32_t temp; + + if(which_input == Primary_GPS) { + for(uint8_t i=0; i>= 1; + set_bit(CLK, Hi); + if( get_bit(MISO) ) bits |= 0x80000000; + set_bit(CLK, Lo); + } + // OK, transaction is over + set_bit(CE_, Hi); + // Ditch the lower 4 bits, which only contain the address + return (uint32_t)(bits >> 4); +} +uint32_t get_TI_CDCE18005(enum CDCE18005 which_register){ + uint32_t get_reg_value = 0; + get_reg_value = (0xf0 & which_register << 4) | Read_Command; + // This tells the TI chip to send us the reg. value requested + send_SPI(get_reg_value); + return receive_SPI(); +} +bool check_TI_CDCE18005(enum TI_Input_10_MHz which_input, + enum CDCE18005 which_register) { + if(which_input == Primary_GPS){ + uint32_t read_value = get_TI_CDCE18005(which_register); + return read_value == table_Pri_Ref[which_register]; + } else { + uint32_t read_value = get_TI_CDCE18005(which_register); + return read_value == table_Sec_Ref[which_register]; + } +} -void -Setup_Atmel_IO_Ports(){ - - -///////////////////////////////////////////////////////////////////////////// +void Setup_Atmel_IO_Ports() { /* * PORT A - * - *pin# Sig Our Functional Name * - * p51 PA0 CLK_CDCE to U205 pin 24 -- L-->H edge latches MOSI and MISO in CDCE18005 - * p50 PA1 CE_CDCE Low = Chip Enabled for SPI comm to U205 pin 25 - * p49 PA2 MOSI_CDCE Goes to CDCE18005 - U205 pin 23 - * p48 PA3 MISO_CDCE Input Comes from U205 pin 22 - * p47 PA4 PD_CDCE Low = Chip is in Power-Down state; is Hi for normal operation U205 pin 12 - * p46 PA5 SYNC_CDCE Low = Chip is sync'd with interal dividers; Hi for normal operation U205 pin 14 - * p45 PA6 PPS_SEL Low --> PPS_EXT selected; Hi -> PPS_GPS selected; to U203 pin 1 - * p44 PA7 gps_lock Input Comes from M9107 - U206 pin 3 + * pin# Sig Our Functional Name + * + * p51 PA0 CLK_CDCE to U205 pin 24 -- L-->H edge latches MOSI and MISO in CDCE18005 + * p50 PA1 CE_CDCE Low = Chip Enabled for SPI comm to U205 pin 25 + * p49 PA2 MOSI_CDCE Goes to CDCE18005 - U205 pin 23 + * p48 PA3 MISO_CDCE Input Comes from U205 pin 22 + * p47 PA4 PD_CDCE Low = Chip is in Power-Down state; is Hi for normal operation U205 pin 12 + * p46 PA5 SYNC_CDCE Low = Chip is sync'd with interal dividers; Hi for normal operation U205 pin 14 + * p45 PA6 PPS_SEL Low --> PPS_EXT selected; Hi -> PPS_GPS selected; to U203 pin 1 + * p44 PA7 gps_lock Input Comes from M9107 - U206 pin 3 * */ -// Bit #: 76543210 -PORTA = Bits_8(00110010); // /pd_cdcd, /sync_code, /ce need to be 1 (disabled) to start -DDRA = 1<