FC0012 doc and fixes
Fix selection of VCO band (needed for example to get to 166 MHz) for the FC0012 tuner, and add a lot of register descriptions. Signed-Off-by: Michael Karcher <osmosdr@mkarcher.dialup.fu-berlin.de> Signed-off-by: Steve Markgraf <steve@steve-m.de>
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Michael Karcher
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6328438479
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c4c48a69ea
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@ -20,21 +20,35 @@
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/* Incomplete list of register settings:
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/* Incomplete list of register settings:
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*
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*
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* Name Reg Bits Desc
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* Name Reg Bits Desc
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* CHIP_ID 0x00 0-7 Chip ID (constant 0xA1)
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* RF_A 0x01 0-3 Number of count-to-9 cycles in RF
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* divider (suggested: 2..9)
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* RF_M 0x02 0-7 Total number of cycles (to-8 and to-9)
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* in RF divider
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* RF_K_HIGH 0x03 0-6 Bits 8..14 of fractional divider
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* RF_K_LOW 0x04 0-7 Bits 0..7 of fractional RF divider
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* RF_OUTDIV_A 0x05 3-7 Power of two required?
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* LNA_POWER_DOWN 0x06 0 Set to 1 to switch off low noise amp
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* LNA_POWER_DOWN 0x06 0 Set to 1 to switch off low noise amp
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* VCO_SPEED 0x06 3 Set the speed of the VCO. example
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* RF_OUTDIV_B 0x06 1 Set to select 3 instead of 2 for the
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* driver hardcodes to 1 for some reason
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* RF output divider
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* VCO_SPEED 0x06 3 Select tuning range of VCO:
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* 0 = Low range, (ca. 1.1 - 1.5GHz)
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* 1 = High range (ca. 1.4 - 1.8GHz)
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* BANDWIDTH 0x06 6-7 Set bandwidth. 6MHz = 0x80, 7MHz=0x40
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* BANDWIDTH 0x06 6-7 Set bandwidth. 6MHz = 0x80, 7MHz=0x40
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* 8MHz=0x00
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* 8MHz=0x00
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* XTAL_SPEED 0x07 5 Set to 1 for 28.8MHz Crystal input
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* XTAL_SPEED 0x07 5 Set to 1 for 28.8MHz Crystal input
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* or 0 for 36MHz
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* or 0 for 36MHz
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* <agc params> 0x08 0-7
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* EN_CAL_RSSI 0x09 4 Enable calibrate RSSI
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* EN_CAL_RSSI 0x09 4 Enable calibrate RSSI
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* (Receive Signal Strength Indicator)
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* (Receive Signal Strength Indicator)
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* LNA_FORCE 0x0d 0
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* LNA_FORCE 0x0d 0
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* AGC_FORCE 0x0d ?
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* AGC_FORCE 0x0d ?
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* LNA_GAIN 0x13 0-4 Low noise amp gain
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* LNA_GAIN 0x13 3-4 Low noise amp gain
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* LNA_COMPS 0x15 3 ?
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* LNA_COMPS 0x15 3 ?
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* VCO_CALIB 0x0e 7 Set high then low to calibrate VCO
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* VCO_CALIB 0x0e 7 Set high then low to calibrate VCO
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*
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* (fast lock?)
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* VCO_VOLTAGE 0x0e 0-6 Read Control voltage of VCO
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* (big value -> low freq)
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*/
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*/
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/* glue functions to rtl-sdr code */
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/* glue functions to rtl-sdr code */
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@ -99,12 +113,11 @@ void FC0012_Dump_Registers()
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DEBUGF("LNA Force:\t%s\n", (regBuf & 0x1) ? "Forced" : "Not Forced");
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DEBUGF("LNA Force:\t%s\n", (regBuf & 0x1) ? "Forced" : "Not Forced");
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FC0012_Read(pTuner, 0x13, ®Buf);
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FC0012_Read(pTuner, 0x13, ®Buf);
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DEBUGF("LNA Gain:\t");
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DEBUGF("LNA Gain:\t");
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switch (regBuf) {
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switch (regBuf & 0x18) {
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case (0x10): DEBUGF("19.7dB\n"); break;
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case (0x00): DEBUGF("Low\n"); break;
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case (0x17): DEBUGF("17.9dB\n"); break;
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case (0x08): DEBUGF("Middle\n"); break;
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case (0x08): DEBUGF("7.1dB\n"); break;
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case (0x10): DEBUGF("High\n"); break;
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case (0x02): DEBUGF("-9.9dB\n"); break;
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default: DEBUGF("unknown gain value 0x18\n");
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default: DEBUGF("unknown gain value 0x02x\n");
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}
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}
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#endif
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#endif
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}
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}
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@ -173,7 +186,7 @@ void FC0012_Frequency_Control(unsigned int Frequency, unsigned short Bandwidth)
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int FC0012_SetFrequency(void *pTuner, unsigned long Frequency, unsigned short Bandwidth)
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int FC0012_SetFrequency(void *pTuner, unsigned long Frequency, unsigned short Bandwidth)
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{
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{
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int VCO1 = 0;
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int VCO_band = 0;
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unsigned long doubleVCO;
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unsigned long doubleVCO;
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unsigned short xin, xdiv;
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unsigned short xin, xdiv;
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unsigned char reg[21], am, pm, multi;
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unsigned char reg[21], am, pm, multi;
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@ -230,7 +243,7 @@ int FC0012_SetFrequency(void *pTuner, unsigned long Frequency, unsigned short Ba
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doubleVCO = Frequency * multi;
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doubleVCO = Frequency * multi;
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reg[6] = reg[6] | 0x08;
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reg[6] = reg[6] | 0x08;
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VCO1 = 1;
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VCO_band = 1;
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xdiv = (unsigned short)(doubleVCO / (CrystalFreqKhz / 2));
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xdiv = (unsigned short)(doubleVCO / (CrystalFreqKhz / 2));
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if( (doubleVCO - xdiv * (CrystalFreqKhz / 2)) >= (CrystalFreqKhz / 4) )
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if( (doubleVCO - xdiv * (CrystalFreqKhz / 2)) >= (CrystalFreqKhz / 4) )
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xdiv = xdiv + 1;
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xdiv = xdiv + 1;
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@ -269,7 +282,6 @@ int FC0012_SetFrequency(void *pTuner, unsigned long Frequency, unsigned short Ba
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if (FC0012_Write(pTuner, 0x03, reg[3])) return -1;
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if (FC0012_Write(pTuner, 0x03, reg[3])) return -1;
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if (FC0012_Write(pTuner, 0x04, reg[4])) return -1;
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if (FC0012_Write(pTuner, 0x04, reg[4])) return -1;
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//reg[5] = reg[5] | 0x07; // This is really not cool. Why is it there?
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//reg[5] = reg[5] | 0x07; // This is really not cool. Why is it there?
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// Same with hardcoding VCO=1
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if (FC0012_Write(pTuner, 0x05, reg[5])) return -1;
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if (FC0012_Write(pTuner, 0x05, reg[5])) return -1;
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if (FC0012_Write(pTuner, 0x06, reg[6])) return -1;
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if (FC0012_Write(pTuner, 0x06, reg[6])) return -1;
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@ -277,16 +289,19 @@ int FC0012_SetFrequency(void *pTuner, unsigned long Frequency, unsigned short Ba
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if (FC0012_Write(pTuner, 0x0E, 0x80)) return -1;
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if (FC0012_Write(pTuner, 0x0E, 0x80)) return -1;
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if (FC0012_Write(pTuner, 0x0E, 0x00)) return -1;
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if (FC0012_Write(pTuner, 0x0E, 0x00)) return -1;
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// VCO Re-Calibration if needed
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// Read resulting VCO control voltage
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if (FC0012_Write(pTuner, 0x0E, 0x00)) return -1;
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if (FC0012_Write(pTuner, 0x0E, 0x00)) return -1;
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if (FC0012_Read(pTuner, 0x0E, &read_byte)) return -1;
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if (FC0012_Read(pTuner, 0x0E, &read_byte)) return -1;
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reg[14] = 0x3F & read_byte;
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reg[14] = 0x3F & read_byte;
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if (VCO1)
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// Adjust VCO range if control voltage is at the limit
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if (VCO_band)
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{
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{
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// high-band VCO hitting low frequency bound
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if (reg[14] > 0x3C)
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if (reg[14] > 0x3C)
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{
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{
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reg[6] = 0x08 | reg[6];
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// select low-band VCO
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reg[6] = ~0x08 & reg[6];
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if (FC0012_Write(pTuner, 0x06, reg[6])) return -1;
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if (FC0012_Write(pTuner, 0x06, reg[6])) return -1;
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if (FC0012_Write(pTuner, 0x0E, 0x80)) return -1;
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if (FC0012_Write(pTuner, 0x0E, 0x80)) return -1;
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@ -295,7 +310,9 @@ int FC0012_SetFrequency(void *pTuner, unsigned long Frequency, unsigned short Ba
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}
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}
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else
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else
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{
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{
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// low-band VCO hitting high frequency bound
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if (reg[14] < 0x02) {
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if (reg[14] < 0x02) {
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// select high-band VCO
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reg[6] = 0x08 | reg[6];
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reg[6] = 0x08 | reg[6];
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if (FC0012_Write(pTuner, 0x06, reg[6])) return -1;
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if (FC0012_Write(pTuner, 0x06, reg[6])) return -1;
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