gw: finish CDC sampler module

Just need to hook this into the FIFO I made before, and write all the peak detection, triggering, and trigger enable logic, + hook everything into a single wishbone address space.
2023-04-23 20:45:57 -06:00 · 2023-04-23 20:45:57 -06:00 · 39b5dd7193
commit 39b5dd7193
parent 0bf6c2336c
2 changed files with 29 additions and 7 deletions
--- a/gateware/litex_main.py
+++ b/gateware/litex_main.py
@ -37,6 +37,7 @@ class _CRG(Module):
    def __init__(self, platform, sys_clk_freq, use_internal_osc=False, with_usb_pll=False, with_video_pll=False, sdram_rate="1:1"):
        self.rst = Signal()
        self.clock_domains.cd_sys    = ClockDomain()
+        self.clock_domains.cd_sample_clock = ClockDomain("sample_clock")
        if sdram_rate == "1:2":
            self.clock_domains.cd_sys2x    = ClockDomain()
            self.clock_domains.cd_sys2x_ps = ClockDomain()
@ -75,6 +76,9 @@ class _CRG(Module):
        sdram_clk = ClockSignal("sys2x_ps" if sdram_rate == "1:2" else "sys_ps")
        self.specials += DDROutput(1, 0, platform.request("sdram_clock"), sdram_clk)

+        # Sampler clock
+        pll.create_clkout(self.cd_sample_clock, int(10e6))
+
 # BaseSoC ------------------------------------------------------------------------------------------

 # TODO make my own platform for this based on the colorlight one, so I can export I2C and other pins
@ -138,7 +142,7 @@ class BaseSoC(SoCCore):
            if with_video_framebuffer:
                self.add_video_framebuffer(phy=self.videophy, timings="800x600@60Hz", clock_domain="hdmi")

-        self.submodules.sampler = Sampler(platform.request("adc"))
+        self.submodules.sampler = Sampler(platform.request("adc"), self.crg.cd_sample_clock.clk)
        sampler_region = SoCRegion(origin=None, size=0x1000, cached=False)
        #self.add_wb_slave(0x9000_0000, self.sampler.bus, 0x1000)
        # TODO better way to do this?
--- a/gateware/sampler.py
+++ b/gateware/sampler.py
@ -109,17 +109,35 @@ class CircularBuffer(Module):
                        wr_ptr.eq(0), rd_ptr.eq(0), empty.eq(1))


+from migen.genlib.cdc import PulseSynchronizer
+
+
 class Sampler(Module):
-    def __init__(self, adc_pins):
+    def __init__(self, adc_pins: Record, sampler_clock: Signal):
        # TODO correct addr width
        self.bus = Interface(data_width=32, adr_width=11)

        # self.clock_domains.foo = ClockDomain() is how to add a new clock domain, accessible at self.foo
+        # Connect sampler clock domain
+        self.clock_domains.sample_clock = ClockDomain("sample_clock")
+        self.comb += self.sample_clock.clk.eq(sampler_clock)

-        # Provide a slow clock to the ADC, 60MHz / 600 = 100kHz
-        self._counter = Signal(32)
-        self.sync += self._counter.eq(self._counter + 1)
-        self.sync += If(self._counter >= 600, self._counter.eq(0), adc_pins.refclk.eq(~adc_pins.refclk))
+        # Hook up ADC REFCLK to sample_clock
+        self.comb += adc_pins.refclk.eq(sampler_clock)
+
+        # We can synchronize to the sampler clock, whenever it goes high we can
+        # strobe a single valid signal
+        synchronizer = PulseSynchronizer("sample_clock", "sys")
+        self.submodules += synchronizer
+
+        self.valid = Signal()
+        self.data = Signal(10)
+
+        self.comb += [
+            synchronizer.i.eq(self.sample_clock.clk),
+            self.valid.eq(synchronizer.o),
+            self.data.eq(adc_pins.data),
+        ]

        # Set config pins to constant values
        self.comb += adc_pins.oen_b.eq(0)       # Data pins enable
@ -128,7 +146,7 @@ class Sampler(Module):
        # The only remaining pin, OTR, is an out of range status indicator

        # Read directly from the data pins into the wishbone bus for now, just for bringup
-        self.comb += self.bus.dat_r.eq(adc_pins.data)
+        self.sync += If(self.valid, self.bus.dat_r.eq(adc_pins.data))
        self.sync += self.bus.ack.eq(0)
        self.sync += If(self.bus.cyc & self.bus.stb, self.bus.ack.eq(1))