1 files changed, 24 insertions, 0 deletions
diff --git a/firmware/target/mips/ingenic_x1000/erosqnative/audiohw-erosqnative.c b/firmware/target/mips/ingenic_x1000/erosqnative/audiohw-erosqnative.c
index 4bd3316889..6968a19a1c 100644
--- a/firmware/target/mips/ingenic_x1000/erosqnative/audiohw-erosqnative.c
+++ b/firmware/target/mips/ingenic_x1000/erosqnative/audiohw-erosqnative.c
@@ -104,6 +104,30 @@ void audiohw_postinit(void)
        * for 24-bit data... */
        // es9018k2m_write_reg(ES9018K2M_REG1_INPUT_CONFIG, 0b01001100); // 24-bit data
+       /* Datasheet: Sets the number os FSR edges that must occur before    *
+        * the DPLL and ASRC can lock on to the the incoming Signal.         *
+        * When Samplerates >= 96khz could be used, STOP_DIV should be set   *
+        * to 0 (= 16384 FSR Edges).                                         *
+        *   Reg #10 [3:0] (0x05 default, 2730 FSR Edges)                    */
+        es9018k2m_write_reg(ES9018K2M_REG10_MASTER_MODE_CTRL, 0x00);
+       /* Datasheet: The ES90x8Q2M/K2M contains a Jitter Eliminator block,   *
+        * which employs the use of a digital phase locked loop (DPLL) to     *
+        * lock to the incoming audio clock rate. When in I2S or SPDIF mode,  *
+        * the DPLL will lock to the frame clock (1 x fs). However, when in   *
+        * DSD mode, the DPLL has no frame clock information, and must in-    *
+        * stead lock to the bit clock rate (BCK). For this reason, there are *
+        * two bandwidth settings for the DPLL.                               *
+           Reg #12 [7:4] (0x05 default) bandwidth for I2S / SPDIF mode.
+           Reg #12 [3:0] (0x0A default) bandwidth for DSD mode.
+        * The DPLL bandwidth sets how quickly the DPLL can adjust its intern *
+        * representation of the audio clock. The higher the jitter or        *
+        * frequency drift on the audio clock, the higher the bandwidth must  *
+        * be so that the DPLL can react.                                     *
+        * ! If the bandwidth is “too low”, the DPLL will loose lock and you  *
+        * ! will hear random dropouts. (Fixed my SurfansF20 v3.2 dropouts)   */
+        es9018k2m_write_reg(ES9018K2M_REG12_DPLL_SETTINGS, 0xda);
    } else { /* Default to SWVOL for PCM5102A DAC */
        logf("Default to SWVOL: ret=%d", ret);
    }

diff --git a/firmware/target/mips/ingenic_x1000/erosqnative/audiohw-erosqnative.c b/firmware/target/mips/ingenic_x1000/erosqnative/audiohw-erosqnative.c index 4bd3316889..6968a19a1c 100644 --- a/firmware/target/mips/ingenic_x1000/erosqnative/audiohw-erosqnative.c +++ b/firmware/target/mips/ingenic_x1000/erosqnative/audiohw-erosqnative.c
@@ -104,6 +104,30 @@ void audiohw_postinit(void)
104	* for 24-bit data... */	104	* for 24-bit data... */
105	// es9018k2m_write_reg(ES9018K2M_REG1_INPUT_CONFIG, 0b01001100); // 24-bit data	105	// es9018k2m_write_reg(ES9018K2M_REG1_INPUT_CONFIG, 0b01001100); // 24-bit data
106		106
		107	/* Datasheet: Sets the number os FSR edges that must occur before *
		108	* the DPLL and ASRC can lock on to the the incoming Signal. *
		109	* When Samplerates >= 96khz could be used, STOP_DIV should be set *
		110	* to 0 (= 16384 FSR Edges). *
		111	* Reg #10 [3:0] (0x05 default, 2730 FSR Edges) */
		112	es9018k2m_write_reg(ES9018K2M_REG10_MASTER_MODE_CTRL, 0x00);
		113
		114	/* Datasheet: The ES90x8Q2M/K2M contains a Jitter Eliminator block, *
		115	* which employs the use of a digital phase locked loop (DPLL) to *
		116	* lock to the incoming audio clock rate. When in I2S or SPDIF mode, *
		117	* the DPLL will lock to the frame clock (1 x fs). However, when in *
		118	* DSD mode, the DPLL has no frame clock information, and must in- *
		119	* stead lock to the bit clock rate (BCK). For this reason, there are *
		120	* two bandwidth settings for the DPLL. *
		121	Reg #12 [7:4] (0x05 default) bandwidth for I2S / SPDIF mode.
		122	Reg #12 [3:0] (0x0A default) bandwidth for DSD mode.
		123	* The DPLL bandwidth sets how quickly the DPLL can adjust its intern *
		124	* representation of the audio clock. The higher the jitter or *
		125	* frequency drift on the audio clock, the higher the bandwidth must *
		126	* be so that the DPLL can react. *
		127	* ! If the bandwidth is “too low”, the DPLL will loose lock and you *
		128	* ! will hear random dropouts. (Fixed my SurfansF20 v3.2 dropouts) */
		129	es9018k2m_write_reg(ES9018K2M_REG12_DPLL_SETTINGS, 0xda);
		130
107	} else { /* Default to SWVOL for PCM5102A DAC */	131	} else { /* Default to SWVOL for PCM5102A DAC */
108	logf("Default to SWVOL: ret=%d", ret);	132	logf("Default to SWVOL: ret=%d", ret);
109	}	133	}