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C7B12 Datasheet

Part Manufacturer Description PDF Type
C7B12 Semitron Data Book 1991 Scan
C7B12 Semitronics Voltage Regulator Diode in Hermetically Sealed Package, 1500 Watts Peak Power Scan
C7B120 Semitron Data Book 1991 Scan
C7B120 Semitronics Voltage Regulator Diode in Hermetically Sealed Package, 1500 Watts Peak Power Scan

C7B12

Catalog Datasheet MFG & Type PDF Document Tags

pll 02 a

Abstract: PLL-02 The Analog Mixed Signal Company PLL ID: 053 PLL-02 Name Description This phase locked loop (PLL) is designed for low voltage applications. For this circuit, the C7B12 process is used. An advantage of this topology is it's great simplicity. If you want to change the output frequency, change the clock divider after the VCO. The filter capacitor in the testbench is supposed to be realized as external device. For a better settling enlarge the time constant of the filter. The current PLL is
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pll 02 a 470nF

C7B12

Abstract: VREG-11 The Analog Mixed Signal Company Voltage Regulator ID: 043 VREG-11 Name Description This circuit was designed for a RFID chip in C7B12. The purpose of this circuit is to combine the V-I-characteristic of a Zener-diode for overvoltage protection with a modulator. In this circuit, stacked NMOS transistors in series with a PolyG-resistor are used to adjust the threshold where the circuit starts to draw current. During modulation (MOD=high) addditional current is sunk from the coil. Thus the coil voltage
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C7B12

Abstract: VREG-10 The Analog Mixed Signal Company Voltage Regulator Name Description ID: 042 VREG-10 This circuit was designed for a RFID chip in C7B12. The purpose of this circuit is to imitate the V-I-characteristic of a Zener-diode to protect the chip from overvoltages. In this circuit, stacked NMOS transistors are used to adjust the threshold where the circuit starts to draw current. Low voltage transistors were used to get a smaller an faster circuit. 5 It was not designed for a long life time (10 hours).
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pll 02 a

Abstract: PLL-02 The Analog Mixed Signal Company PLL ID: 052 PLL-01 Name Description This phase locked loop (PLL) is designed for low voltage applications. For this circuit, the C7B12 process technology is used. This topology is more sophisticated than that of the PLL-02. In this PLL, a linear VCO in combination with a low voltage bandgap, and a charge pump as output circuit are used. For phase detection, this PLL takes advantage of the same edge triggered phase detector like the PLL-02. The filter capacitor
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PLL02

13.56mhz rfid

Abstract: C7B12 The Analog Mixed Signal Company Voltage Regulator Name Description ID: 041 VREG-09 This rectifier was designed for a RFID chip in C7B12. It offers a smaller voltage drop than a circuit consisting of floating pn-diodes. This circuit has been implemented in silicon and has been tested successfully for frequencies up to 13.56MHz. Conditions VCOIL ±6 V RLOAD 1 Mohm Simulated Data Parameter DC Output Voltage (peak) Voltage Drop Temperature Range Minimum value Typical value Maximum
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13.56mhz rfid

rfid chip

Abstract: C7B12 The Analog Mixed Signal Company Voltage Regulator ID: 040 Name VREG-08 Description This circuit was designed for a RFID chip in C7B12. The purpose of this circuit is to combine the V-I-characteristic of a Zener-diode for overvoltage protection with a modulator. In this circuit, stacked NMOS transistors in series with a PolyG-resistor are used to adjust the threshold where the circuit starts to draw current. During modulation (Vmod=high) addditional current is sunk from the coil. Thus, the coil voltage
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rfid chip

3296 1 k

Abstract: AMP-22 The Analog Mixed Signal Company Amplifier ID: 036 AMP-22 Name Description This amp is designed for low voltage / low power applications. It is compensated for stable operation at unity gain frequency. The results are simulated with the parasitic extracted. The used process is c7b12. Conditions Temperature Reference Current (Iref) VDD 27 C 250 nA 1.2 V VGNDA 0.6 V Load 250 kOhm | 10 pF 0 Simulated Data Symbol VDD Unit V Reference Current Iref nA Supply
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3296 1 k

C7B12

Abstract: COMP-02 The Analog Mixed Signal Company Comparator ID: 039 COMP-02 Name Description For this circuit the C7B12 process is used. All results are simulated with extracted parasitics. Min and max values are 1) results of corner simulation . Conditions Temperature VDD VSS 0V Simulated Data Parameter Threshold Voltage low-high Symbol VLH Unit V Threshold Voltage high-low Supply Current VHL IDD V µA Delay 1) all Corners: Min 0.29 0.03 ns Typ 0.41 0.8 144
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C7B12

Abstract: VREG-12 The Analog Mixed Signal Company Voltage Regulator ID: 046 Name VREG-12 Description This rectifier was designed for a RFID chip in C7B12. It offers a smaller voltage drop than a circuit consisting of floating pn-diodes. Conditions VCOIL ±8 V RLOAD 200 kOhms Simulated Data Parameter DC Output Voltage (peak) Voltage Drop Temperature Range Minium value Typical value Maximum value Symbol VDD VDROP Unit V V T °C Min 6.85 Typ 7.14 Max 7.41 1.15 -40 0.86
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C7B12

Abstract: VREG-18 is C7B12. Conditions Temperature VIN 27°C 2 .0V VREF 0.8 V VOUT 1.2 V IBIAS
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VREG-18

712 regulator

Abstract: regulator 712 The Analog Mixed Signal Company Voltage Regulator Name Description ID: 048 VREG-14 This is a low-current low drop-out voltage regulator. It was designed to provide a stable supply voltage for the digital circuitry of a RFID chip. The used process is C7B12. Conditions Temperature VIN 27°C 2V VREF 1.2 V IBIAS 250 nA Load 10µA + 100 pF Simulated Data Parameter Minimum Input Voltage Regulator Offset Supply Current Temperature Range Nominal Output
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712 regulator regulator 712

VREG-16

Abstract: The Analog Mixed Signal Company Voltage Regulator ID: 051 Name VREG-16 Description This low voltage band-gap reference is designed to drive capacitive loads only. It uses the C7b12 process. The output reference voltage (pin vbg) can be adjusted by setting R8. Vbias can be used to bias external current sources. A reset impulse (poc) is used to put the circuit in the desired operating point. All results are simulated with extracted parasitics. Conditions Temperature VIN 27°C 1.2 V Load
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2SK149

Abstract: . Case 2.54 EI A J : TC-7.TB-9C JEDEC : T0-206MD (TO-72) IEC : C7.B12 M i -t & ft MIN. TYP. MAX. #
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2SK149

C7L3

Abstract: c5m3 The Analog Mixed Signal Company Voltage Regulator Name Description ID: 042 VREG-10 This circuit was designed for a RFID chip in C7B12. The purpose of this circuit is to imitate the V-I-characteristic of a Zener-diode to protect the chip from overvoltages. In this circuit, stacked NMOS transistors are used to adjust the threshold where the circuit starts to draw current. Low voltage transistors were used to get a smaller an faster circuit. 5 It was not designed for a long life time (10 hours).
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C7L3 c5m3 IC R2A3 FREE u4d1 C4A12 C4A15 SU200-763513 C2C17 R2C13 R2C10 R2C11 R2C12