Fix pin assignments on 8755A device to match the schematic

TommyPROM/PromDevice8755A.cpp

@@ -1,115 +1,115 @@
-#include "Configure.h"
-#if defined(PROM_IS_8755A)
-
-
-#define CE1         A0
-#define CE2         A1
-#define RD          A2
-#define AD8         A5
-#define AD9         A4
-#define AD10        A3
-#define ALE         12
-#define VDDCTL      11
-
-
-PromDevice8755A::PromDevice8755A(unsigned long size)
-    : PromDevice(size, 0, 0, false)
-{
-}
-
-
-void PromDevice8755A::begin()
-{
-    // Define the data bus as input initially so that it does not put out a
-    // signal that could collide with output on the data pins of the EEPROM.
-    setDataBusMode(INPUT);
-
-    // Define the EEPROM control pins as output, making sure they are all
-    // in the disabled state.
-    digitalWrite(RD, HIGH);
-    pinMode(RD, OUTPUT);
-    digitalWrite(VDDCTL, LOW);
-    pinMode(VDDCTL, OUTPUT);
-    digitalWrite(CE1, LOW);
-    pinMode(CE1, OUTPUT);
-    digitalWrite(CE2, LOW);
-    pinMode(CE2, OUTPUT);
-    digitalWrite(ALE, LOW);
-    pinMode(ALE, OUTPUT);
-
-    // The address control pins are always outputs.
-    pinMode(AD8, OUTPUT);
-    pinMode(AD9, OUTPUT);
-    pinMode(AD10, OUTPUT);
-    digitalWrite(AD8, LOW);
-    digitalWrite(AD9, LOW);
-    digitalWrite(AD10, LOW);
-}
-
-
-// BEGIN PRIVATE METHODS
-//
-
-// Set an 11 bit address using the 8 address/data bus lines and three more dedicated
-// address lines.  The read and burn code will take care of the ALE line
-void PromDevice8755A::setAddress(word address)
-{
-    writeDataBus(byte(address & 0xff));
-    digitalWrite(AD8, address & 0x100  ? HIGH : LOW);
-    digitalWrite(AD9, address & 0x200  ? HIGH : LOW);
-    digitalWrite(AD10, address & 0x400 ? HIGH : LOW);
-}
-
-
-// Read a byte from a given address
-byte PromDevice8755A::readByte(word address)
-{
-    byte data = 0;
-    digitalWrite(RD, HIGH);
-    digitalWrite(CE1, LOW);
-
-	// Put the address on the bus and latch it with ALE
-    digitalWrite(CE2, HIGH);
-    setDataBusMode(OUTPUT);
-    setAddress(address);
-	digitalWrite(ALE, HIGH);
-	digitalWrite(ALE, LOW);
-
-	// Read a byte
-    setDataBusMode(INPUT);
-    setAddress(0xff);
-    digitalWrite(RD, LOW);
-    delayMicroseconds(1);
-    data = readDataBus();
-    digitalWrite(RD, HIGH);
-    digitalWrite(CE2, LOW);
-
-    return data;
-}
-
-
-// Burn a byte to the chip and verify that it was written.
-bool PromDevice8755A::burnByte(byte value, word address)
-{
-    // Latch the address and the CE lines
-    digitalWrite(ALE, HIGH);
-    digitalWrite(CE1, LOW);
-    digitalWrite(CE2, HIGH);
-    setAddress(address);
-    digitalWrite(ALE, LOW);
-
-    // Burn the byte value by setting CE1 high and then setting VDD to +25V for 50ms.
-    setDataBusMode(OUTPUT);
-    writeDataBus(value);
-    digitalWrite(CE1, HIGH);
-    digitalWrite(VDDCTL, HIGH);
-    delay(50);
-    digitalWrite(VDDCTL, LOW);
-    digitalWrite(CE1, LOW);
-
-    // Read back the value and return success if it matches
-    return readByte(address) == value;
-}
-
-#endif // #if defined(PROM_IS_8755A)
-
+#include "Configure.h"
+#if defined(PROM_IS_8755A)
+
+
+#define CE2         A0
+#define RD          A1
+#define CE1         A2
+#define AD10        A3
+#define AD9         A4
+#define AD8         A5
+#define ALE         10
+#define VDDCTL      12
+
+
+PromDevice8755A::PromDevice8755A(unsigned long size)
+    : PromDevice(size, 0, 0, false)
+{
+}
+
+
+void PromDevice8755A::begin()
+{
+    // Define the data bus as input initially so that it does not put out a
+    // signal that could collide with output on the data pins of the EEPROM.
+    setDataBusMode(INPUT);
+
+    // Define the EEPROM control pins as output, making sure they are all
+    // in the disabled state.
+    digitalWrite(RD, HIGH);
+    pinMode(RD, OUTPUT);
+    digitalWrite(VDDCTL, LOW);
+    pinMode(VDDCTL, OUTPUT);
+    digitalWrite(CE1, LOW);
+    pinMode(CE1, OUTPUT);
+    digitalWrite(CE2, LOW);
+    pinMode(CE2, OUTPUT);
+    digitalWrite(ALE, LOW);
+    pinMode(ALE, OUTPUT);
+
+    // The address control pins are always outputs.
+    pinMode(AD8, OUTPUT);
+    pinMode(AD9, OUTPUT);
+    pinMode(AD10, OUTPUT);
+    digitalWrite(AD8, LOW);
+    digitalWrite(AD9, LOW);
+    digitalWrite(AD10, LOW);
+}
+
+
+// BEGIN PRIVATE METHODS
+//
+
+// Set an 11 bit address using the 8 address/data bus lines and three more dedicated
+// address lines.  The read and burn code will take care of the ALE line
+void PromDevice8755A::setAddress(word address)
+{
+    writeDataBus(byte(address & 0xff));
+    digitalWrite(AD8, address & 0x100  ? HIGH : LOW);
+    digitalWrite(AD9, address & 0x200  ? HIGH : LOW);
+    digitalWrite(AD10, address & 0x400 ? HIGH : LOW);
+}
+
+
+// Read a byte from a given address
+byte PromDevice8755A::readByte(word address)
+{
+    byte data = 0;
+    digitalWrite(RD, HIGH);
+    digitalWrite(CE1, LOW);
+
+	// Put the address on the bus and latch it with ALE
+    digitalWrite(CE2, HIGH);
+    setDataBusMode(OUTPUT);
+    setAddress(address);
+	digitalWrite(ALE, HIGH);
+	digitalWrite(ALE, LOW);
+
+	// Read a byte
+    setDataBusMode(INPUT);
+    setAddress(0xff);
+    digitalWrite(RD, LOW);
+    delayMicroseconds(1);
+    data = readDataBus();
+    digitalWrite(RD, HIGH);
+    digitalWrite(CE2, LOW);
+
+    return data;
+}
+
+
+// Burn a byte to the chip and verify that it was written.
+bool PromDevice8755A::burnByte(byte value, word address)
+{
+    // Latch the address and the CE lines
+    digitalWrite(ALE, HIGH);
+    digitalWrite(CE1, LOW);
+    digitalWrite(CE2, HIGH);
+    setAddress(address);
+    digitalWrite(ALE, LOW);
+
+    // Burn the byte value by setting CE1 high and then setting VDD to +25V for 50ms.
+    setDataBusMode(OUTPUT);
+    writeDataBus(value);
+    digitalWrite(CE1, HIGH);
+    digitalWrite(VDDCTL, HIGH);
+    delay(50);
+    digitalWrite(VDDCTL, LOW);
+    digitalWrite(CE1, LOW);
+
+    // Read back the value and return success if it matches
+    return readByte(address) == value;
+}
+
+#endif // #if defined(PROM_IS_8755A)
+