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authorLothar Waßmann <LW@KARO-electronics.de>2013-07-05 18:28:00 +0200
committerWolfram Sang <wsa@the-dreams.de>2013-08-16 18:09:05 +0200
commit869c6a3ededbb108b03a11a7c9d4c8a4fb607063 (patch)
tree428951cc716dc7ea6fd131314f40e1ec872ac35d /drivers/i2c/busses
parentb7d12a8667d78ba340829280da8ff62d3b733664 (diff)
i2c: mxs: fix broken timing calculation
The timing calculation is rather bogus and gives extremely wrong results for higher frequencies (on an i.MX28). E.g. instead of 400 kHz I measured 770 kHz. Implement a calculation that adheres to the I2C spec and gives exact results for I2C frequencies from 12.56 kHz to 960 kHz. Also the bus_free and leadin parameters are programmed according to the I2C spec for standard and fast mode. This was tested on a Ka-Ro TX28 module with a DS1339, TSC2007, PCA9554 and SGTL5000 client. Signed-off-by: Lothar Waßmann <LW@KARO-electronics.de> Acked-by: Marek Vasut <marex@denx.de> [wsa: patch fixes whitespace issue, too] Signed-off-by: Wolfram Sang <wsa@the-dreams.de>
Diffstat (limited to 'drivers/i2c/busses')
-rw-r--r--drivers/i2c/busses/i2c-mxs.c87
1 files changed, 63 insertions, 24 deletions
diff --git a/drivers/i2c/busses/i2c-mxs.c b/drivers/i2c/busses/i2c-mxs.c
index 43e2273ac610..46cda0b02fd1 100644
--- a/drivers/i2c/busses/i2c-mxs.c
+++ b/drivers/i2c/busses/i2c-mxs.c
@@ -114,9 +114,10 @@ struct mxs_i2c_dev {
uint32_t timing0;
uint32_t timing1;
+ uint32_t timing2;
/* DMA support components */
- struct dma_chan *dmach;
+ struct dma_chan *dmach;
uint32_t pio_data[2];
uint32_t addr_data;
struct scatterlist sg_io[2];
@@ -138,7 +139,7 @@ static int mxs_i2c_reset(struct mxs_i2c_dev *i2c)
*/
writel(i2c->timing0, i2c->regs + MXS_I2C_TIMING0);
writel(i2c->timing1, i2c->regs + MXS_I2C_TIMING1);
- writel(0x00300030, i2c->regs + MXS_I2C_TIMING2);
+ writel(i2c->timing2, i2c->regs + MXS_I2C_TIMING2);
writel(MXS_I2C_IRQ_MASK << 8, i2c->regs + MXS_I2C_CTRL1_SET);
@@ -587,41 +588,79 @@ static const struct i2c_algorithm mxs_i2c_algo = {
.functionality = mxs_i2c_func,
};
-static void mxs_i2c_derive_timing(struct mxs_i2c_dev *i2c, int speed)
+static void mxs_i2c_derive_timing(struct mxs_i2c_dev *i2c, uint32_t speed)
{
- /* The I2C block clock run at 24MHz */
+ /* The I2C block clock runs at 24MHz */
const uint32_t clk = 24000000;
- uint32_t base;
+ uint32_t divider;
uint16_t high_count, low_count, rcv_count, xmit_count;
+ uint32_t bus_free, leadin;
struct device *dev = i2c->dev;
- if (speed > 540000) {
- dev_warn(dev, "Speed too high (%d Hz), using 540 kHz\n", speed);
- speed = 540000;
- } else if (speed < 12000) {
- dev_warn(dev, "Speed too low (%d Hz), using 12 kHz\n", speed);
- speed = 12000;
+ divider = DIV_ROUND_UP(clk, speed);
+
+ if (divider < 25) {
+ /*
+ * limit the divider, so that min(low_count, high_count)
+ * is >= 1
+ */
+ divider = 25;
+ dev_warn(dev,
+ "Speed too high (%u.%03u kHz), using %u.%03u kHz\n",
+ speed / 1000, speed % 1000,
+ clk / divider / 1000, clk / divider % 1000);
+ } else if (divider > 1897) {
+ /*
+ * limit the divider, so that max(low_count, high_count)
+ * cannot exceed 1023
+ */
+ divider = 1897;
+ dev_warn(dev,
+ "Speed too low (%u.%03u kHz), using %u.%03u kHz\n",
+ speed / 1000, speed % 1000,
+ clk / divider / 1000, clk / divider % 1000);
}
/*
- * The timing derivation algorithm. There is no documentation for this
- * algorithm available, it was derived by using the scope and fiddling
- * with constants until the result observed on the scope was good enough
- * for 20kHz, 50kHz, 100kHz, 200kHz, 300kHz and 400kHz. It should be
- * possible to assume the algorithm works for other frequencies as well.
+ * The I2C spec specifies the following timing data:
+ * standard mode fast mode Bitfield name
+ * tLOW (SCL LOW period) 4700 ns 1300 ns
+ * tHIGH (SCL HIGH period) 4000 ns 600 ns
+ * tSU;DAT (data setup time) 250 ns 100 ns
+ * tHD;STA (START hold time) 4000 ns 600 ns
+ * tBUF (bus free time) 4700 ns 1300 ns
*
- * Note it was necessary to cap the frequency on both ends as it's not
- * possible to configure completely arbitrary frequency for the I2C bus
- * clock.
+ * The hardware (of the i.MX28 at least) seems to add 2 additional
+ * clock cycles to the low_count and 7 cycles to the high_count.
+ * This is compensated for by subtracting the respective constants
+ * from the values written to the timing registers.
*/
- base = ((clk / speed) - 38) / 2;
- high_count = base + 3;
- low_count = base - 3;
- rcv_count = (high_count * 3) / 4;
- xmit_count = low_count / 4;
+ if (speed > 100000) {
+ /* fast mode */
+ low_count = DIV_ROUND_CLOSEST(divider * 13, (13 + 6));
+ high_count = DIV_ROUND_CLOSEST(divider * 6, (13 + 6));
+ leadin = DIV_ROUND_UP(600 * (clk / 1000000), 1000);
+ bus_free = DIV_ROUND_UP(1300 * (clk / 1000000), 1000);
+ } else {
+ /* normal mode */
+ low_count = DIV_ROUND_CLOSEST(divider * 47, (47 + 40));
+ high_count = DIV_ROUND_CLOSEST(divider * 40, (47 + 40));
+ leadin = DIV_ROUND_UP(4700 * (clk / 1000000), 1000);
+ bus_free = DIV_ROUND_UP(4700 * (clk / 1000000), 1000);
+ }
+ rcv_count = high_count * 3 / 8;
+ xmit_count = low_count * 3 / 8;
+
+ dev_dbg(dev,
+ "speed=%u(actual %u) divider=%u low=%u high=%u xmit=%u rcv=%u leadin=%u bus_free=%u\n",
+ speed, clk / divider, divider, low_count, high_count,
+ xmit_count, rcv_count, leadin, bus_free);
+ low_count -= 2;
+ high_count -= 7;
i2c->timing0 = (high_count << 16) | rcv_count;
i2c->timing1 = (low_count << 16) | xmit_count;
+ i2c->timing2 = (bus_free << 16 | leadin);
}
static int mxs_i2c_get_ofdata(struct mxs_i2c_dev *i2c)