LTC4151IMS-1-TRPBF

LTC4151/LTC4151-1 High Voltage I2C Current and Voltage Monitor FEATURES n n n n n n n n DESCRIPTION The LTC®4151 and LTC4151-1 are high side power monitors that operate over a wide voltage range of 7V to 80V. In default operation mode, the onboard 12-bit ADC continuously measures high side current, input voltage and an external voltage. Data is reported through the I2C interface when polled by a host. The monitors can also perform on-demand measurement in a snapshot mode. The LTC4151 features a dedicated shutdown pin to reduce power consumption. The LTC4151-1 features split I2C data pins with data in and an inverted data output to drive optoisolators. L, LT, LTC and LTM are registered trademarks of Linear Technology Corporation. All other trademarks are the property of their respective owners. Wide Operating Voltage Range: 7V to 80V 12-Bit Resolution for Both Current and Voltages I2C Interface Additional ADC Input Monitors an External Voltage Continuous Scan and Snapshot Modes Shutdown Mode (LTC4151) Reduces Quiescent Current to 120μA Split SDA for Optoisolation (LTC4151-1) Tiny 10-Lead MSOP and 3mm × 3mm DFN Packages APPLICATIONS n n n n Telecom Infrastructure Automotive Industrial Consumer TYPICAL APPLICATION 1.0 12-Bit ADC DNL and INL High Side Power Sensing with Onboard ADC and I2C VIN 7V to 80V 0.02Ω VOUT SENSE+ SENSE– 2k VIN LTC4151 SCL ADR1 ADR0 GND SDA ADIN MEASURED VOLTAGE SCL SDA 41511 TA01 0.5 ADC DNL (LSB) 3.3V 0 2k VDD μCONTROLLER –0.5 SHDN –1.0 0 1024 2048 CODE 3072 4096 41511 TA01b 1.0 0.5 ADC INL (LSB) 0 –0.5 –1.0 0 1024 2048 CODE 3072 4096 41511 TA01c 41511fa 1 LTC4151/LTC4151-1 ABSOLUTE MAXIMUM RATINGS (Notes 1, 3) VIN Voltage ................................................. –0.3V to 90V SENSE+, SENSE – Voltages .......................... VIN – 10V or –0.3V to VIN + 0.3V ADR1, ADR0 Voltages .............................. –0.3V to 90V ADIN, SHDN, SDAO Voltages ...................... –0.3V to 6V SCL, SDA, SDAI Voltages (Note 2) ........... –0.3V to 5.5V SCL, SDA, SDAI Clamp Current .............................. 5mA Operating Temperature Range LTC4151C/LTC4151C-1 ............................ 0°C to 70°C LTC4151I/LTC4151I-1 ..........................–40°C to 85°C Storage Temperature Range MSOP ................................................–65°C to 150°C DFN....................................................–65°C to 125°C Lead Temperature (Soldering, 10 sec) MSOP Only ....................................................... 300°C PIN CONFIGURATION LTC4151 TOP VIEW SENSE+ VIN ADR1 ADR0 ADIN 1 2 3 4 5 11 10 SENSE– 9 GND 8 SHDN 7 SDA 6 SCL TOP VIEW SENSE+ VIN ADR1 ADR0 ADIN 1 2 3 4 5 10 9 8 7 6 SENSE– GND SHDN SDA SCL LT4151 DD PACKAGE 10-LEAD (3mm 3mm) PLASTIC DFN TJMAX = 125°C, θJA = 45°C/W EXPOSED PAD (PIN 11) PCB GND CONNECTION OPTIONAL LTC4151-1 TOP VIEW SENSE+ VIN ADR1 ADR0 ADIN 1 2 3 4 5 11 10 SENSE– 9 GND 8 SDAO 7 SDAI 6 SCL SENSE+ VIN ADR1 ADR0 ADIN LTC4151-1 MS PACKAGE 10-LEAD PLASTIC MSOP TJMAX = 125°C, θJA = 85°C/W TOP VIEW 1 2 3 4 5 10 9 8 7 6 SENSE– GND SDAO SDAI SCL DD PACKAGE 10-LEAD (3mm 3mm) PLASTIC DFN TJMAX = 125°C, θJA = 45°C/W EXPOSED PAD (PIN 11) PCB GND CONNECTION OPTIONAL MS PACKAGE 10-LEAD PLASTIC MSOP TJMAX = 125°C, θJA = 85°C/W 41511fa 2 LTC4151/LTC4151-1 ORDER INFORMATION LEAD FREE FINISH LTC4151CDD#PBF LTC4151IDD#PBF LTC4151CDD-1#PBF LTC4151IDD-1#PBF LTC4151CMS#PBF LTC4151IMS#PBF LTC4151CMS-1#PBF LTC4151IMS-1#PBF TAPE AND REEL LTC4151CDD#TRPBF LTC4151IDD#TRPBF LTC4151CDD-1#TRPBF LTC4151IDD-1#TRPBF LTC4151CMS#TRPBF LTC4151IMS#TRPBF LTC4151CMS-1#TRPBF LTC4151IMS-1#TRPBF PART MARKING* LCWZ LCWZ LCXC LCXC LTCWY LTCWY LTCXB LTCXB PACKAGE DESCRIPTION 10-Lead (3mm x 3mm) Plastic DFN 10-Lead (3mm x 3mm) Plastic DFN 10-Lead (3mm x 3mm) Plastic DFN 10-Lead (3mm x 3mm) Plastic DFN 10-Lead Plastic MSOP 10-Lead Plastic MSOP 10-Lead Plastic MSOP 10-Lead Plastic MSOP TEMPERATURE RANGE 0°C to 70°C –40°C to 85°C 0°C to 70°C –40°C to 85°C 0°C to 70°C –40°C to 85°C 0°C to 70°C –40°C to 85°C Consult LTC Marketing for parts specified with wider operating temperature ranges. *The temperature grade is identified by a label on the shipping container. Consult LTC Marketing for information on non-standard lead based finish parts. For more information on lead free part marking, go to: http://www.linear.com/leadfree/ For more information on tape and reel specifications, go to: http://www.linear.com/tapeandreel/ ELECTRICAL CHARACTERISTICS SYMBOL General VIN IIN ISENSE + ISENSE – VSHDN(TH) ISHDN ADC RES VFS Resolution (No Missing Codes) Full-Scale Voltage Supply Voltage Supply Current SENSE+ Input Current SENSE – Input Current SHDN Input Threshold SHDN Input Current PARAMETER The l denotes the specifications which apply over the full operating temperature range, otherwise specifications are at TA = 25°C. VIN is from 7V to 80V, unless noted. (Note 3) CONDITIONS l MIN 7 TYP MAX 80 UNITS V mA μA μA μA V μA Bits VIN = 48V, Normal Operation Mode VIN = 12V, Shutdown Mode VIN, SENSE+, SENSE – = 48V VIN, SENSE+, SENSE – = 48V SHDN = 0V (Note 4) (SENSE+ – SENSE – ) VIN ADIN (SENSE+ – SENSE – ) VIN ADIN (SENSE+ – SENSE – ) VIN (Note 5) ADIN, LTC4151C, LTC4151C-1 ADIN, LTC4151I, LTC4151I-1 (SENSE+ – SENSE – ) VIN (Note 6) ADIN (SENSE+ – SENSE – ) VIN (Note 5) ADIN l l l l l l l 1.2 120 5 0.1 1 –3 12 81.92 102.4 2.048 20 25 0.5 1.5 –5 1.7 300 9 1 2 –8 mV V V μV mV mV ±1.25 ±1 ±0.75 ±1 ±5 ±6 ±8 % % % % LSB LSB LSB LSB LSB LSB LSB LSB Step Size TUE Total Unadjusted Error l l l l l l l l l l VOS Offset Error INL Integral Nonlinearity ±1 ±1 ±0.5 ±3 ±3 ±2 41511fa 3 LTC4151/LTC4151-1 ELECTRICAL CHARACTERISTICS SYMBOL PARAMETER Transition Noise The l denotes the specifications which apply over the full operating temperature range, otherwise specifications are at TA = 25°C. VIN is from 7V to 80V, unless noted. (Note 3) CONDITIONS (SENSE+ – SENSE – ) VIN ADIN Conversion Rate (Continuous Mode) Conversion Time (Snapshot Mode) ADIN Pin Input Resistance ADIN Pin Input Current ADR0, ADR1 Input High Threshold ADRO, ADRI Input Low Threshold ADRO, ADRI Input Current SDA, SDAO Output Low Voltage SDA, SDAI, SDAO, SCL Input Current SDA, SDAI, SCL Input Threshold SDA, SDAI, SCL Clamp Voltage Maximum SCL Clock Frequency Minimum SCL Low Period Minimum SCL High Period Minimum Bus Free Time Between Stop/ Start Condition Minimum Hold Time After (Repeated) Start Condition Minimum Repeated Start Condition Set-Up Time Minimum Stop Condition Set-Up Time Minimum Data Hold Time Input Minimum Data Hold Time Output Minimum Data Set-Up Time Input Maximum Suppressed Spike Pulse Width Stuck-Bus Reset Time SCL, SDA Input Capacitance SCL or SDA/SDAI Held Low 50 20 300 ISDA , ISDAI, ISCL = 3mA ADR0, ADR1 = 0V or 3V ADR0, ADR1 = 0.8V or 2.2V ISDA, ISDAO = 8mA SDA, SDAI, SDAO, SCL = 5V (SENSE+ – SENSE – ) ADIN, VIN ADIN = 3V ADIN = 3V l l l l l MIN TYP 1.2 0.3 22 MAX UNITS μVRMS mVRMS μVRMS σT fCONV tCONV RADIN IADIN I2C Interface VADR(H) VADR(L) IADR(IN) VSDA(OL) ISDA,SCL(IN) VSDA,SCL(TH) VSDA,SCL(CL) fSCL(MAX) tLOW tHIGH tBUF(MIN) tHD,STA(MIN) tSU,STA(MIN) tSU,STO(MIN) tHD,DATI(MIN) tHD,DATO(MIN) tSU,DAT(MIN) tSP(MAX) tRST CX 6 53 26 2 7.5 67 33 10 9 85 42 ±2 Hz ms ms MΩ μA V V μA μA V μA V V kHz l l l l l l l l 2.3 0.3 ±8 2.65 0.6 2.9 0.9 ±70 0.15 0 1.6 5.5 400 0.65 50 0.12 140 30 30 –100 600 30 110 33 5 1.8 6.1 0.4 ±2 2 6.6 I2C Interface Timing (Note 4) 1.3 600 1.3 600 600 600 0 900 100 250 μs ns μs ns ns ns ns ns ns ns ms 10 pF Note 1: Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. Exposure to any Absolute Maximum Rating condition for extended periods may affect device reliability and lifetime. Note 2: Internal clamps limit the SCL, SDA (LTC4151) and SDAI (LTC4151-1) pins to a minimum of 5.5V. Driving these pins to voltages beyond the clamp may damage the part. The pins can be safely tied to higher voltages through a resistor that limits the current below 5mA. Note 3: All currents into pins are positive. All voltages are referenced to GND, unless otherwise noted. Note 4: Guaranteed by design and not subject to test. Note 5: Integral nonlinearity and total unadjusted error of VIN are tested between 7V and 80V. Note 6: Offset error of VIN is defined by extrapolating the straight line measured between 7V and 80V. 41511fa 4 LTC4151/LTC4151-1 TYPICAL PERFORMANCE CHARACTERISTICS Supply Current vs Supply Voltage (Normal Mode) 1.30 400 VIN = 12V, TA = 25°C, unless noted. Supply Current vs Supply Voltage (Shutdown Mode) SUPPLY CURRENT (mA) SUPPLY CURRENT (μA) 1.15 – 40°C 25°C 300 – 40°C 25°C 85°C 100 1.00 85°C 200 0.85 0.70 0 40 60 20 SUPPLY VOLTAGE (V) 80 41511 G01 0 0 40 60 20 SUPPLY VOLTAGE (V) 80 41511 G02 ADC Total Unadjusted Error vs Code (ADIN Voltage) 0.10 ADC TOTAL UNADJUSTED ERROR (%) 1.0 ADC DNL vs Code (ADIN Voltage) 1.0 ADC INL vs Code (ADIN Voltage) 0.05 ADC DNL (LSB) 0.5 ADC INL (LSB) 0.5 0 0 0 –0.05 –0.5 –0.5 –0.10 0 1024 2048 CODE 3072 4096 41511 G03 –1.0 0 1024 2048 CODE –1.0 3072 4096 41511 G04 0 1024 2048 CODE 3072 4096 41511 G05 ADC Total Unadjusted Error vs Code (SENSE Voltage) 1.0 ADC TOTAL UNADJUSTED ERROR (%) 2 ADC DNL vs Code (SENSE Voltage) 2 ADC INL vs Code (SENSE Voltage) 0.5 ADC DNL (LSB) 1 ADC INL (LSB) 2048 CODE 41511 G06 41511 G07 1 0 0 0 –0.5 –1 –1 –1.0 0 1024 2048 CODE 3072 4096 –2 0 1024 3072 4096 –2 0 1024 2048 CODE 3072 4096 41511 G08 41511fa 5 LTC4151/LTC4151-1 TYPICAL PERFORMANCE CHARACTERISTICS 0.5 VIN = 12V, TA = 25°C, unless noted. SDA, SDAO Output Low vs Pull-Up Current (VSDA(OL) vs ISDA ) 85°C SDA, SDAI, SCL Clamp Voltage vs Load Current 6.3 0.4 25°C 0.3 – 40°C 0.2 VSDA,SCL(CL) (V) VSDA(OL) (V) 6.2 6.1 – 40°C 6.0 0.1 85°C 5.9 0.01 25°C 0 0 5 10 ISDA (mA) 15 20 41511 G09 0.1 ILOAD (mA) 1 10 41511 G10 PIN FUNCTIONS (DD/MS) SENSE+ (Pin 1): Kelvin Sense of the VIN Pin. See Figure 10 for recommended Kelvin connection. VIN (Pin 2): Supply Voltage Input. Accepts 7V to 80V. The voltage at this pin is monitored by the onboard ADC with a full-scale input range of 102.4V. SENSE+ must be connected to VIN for proper ADC readout. ADR1, ADR0 (Pin 3, Pin 4): I2C Device Address Inputs. Connecting ADR1 and ADR0 to VIN, GND or leaving the pins open configures one of nine possible addresses. See Table 1 in the Applications Information section for details. ADIN (Pin 5): ADC Input. The onboard ADC measures voltage range between 0V and 2.048V. Tie to GND if unused. SCL (Pin 6): I2C Bus Clock Input. Data is shifted in and out at the SDA pin on rising edges of SCL. This pin is driven by an open collector output from a master controller. An external pull-up resistor or current source is required and can be placed between SCL and VIN. The voltage at SCL is internally clamped to 6V (5.5V minimum). SDA (Pin 7, LTC4151 Only): I2C Bus Data Input/Output. Used for shifting in address, command or data bits and sending out data. An external pull-up resistor or current source is required and can be placed between SDA and VIN. The voltage at SDA is internally clamped to 6V (5.5V minimum). SDAI (Pin 7, LTC4151-1 Only): I2C Bus Data Input. Used for shifting in address, command or data bits. This pin is driven by an open collector output from a master controller. An external pull-up resistor or current source is required and can be placed between SDAI and VIN. The voltage at SDAI is internally clamped to 6V (5.5V minimum). SDAO (Pin 8, LTC4151-1 Only): Inverted Serial Bus Data Output. Open-drain output used for sending data back to the master controller or acknowledging a write operation. Data is inverted for convenience of optoisolation. An external pull-up resistor or current source is required. SHDN (Pin 8, LTC4151 Only): Shutdown Input. Internally pulled up to 6.3V. Pull this pin below 1V to force the LTC4151 into shutdown mode. Leave this pin open if unused. GND (Pin 9): Device Ground. SENSE– (Pin 10): High Side Current Sense Input. Connect an external sense resistor between SENSE+ and SENSE–. The differential voltage between SENSE+ and SENSE– is monitored by the onboard ADC with a full-scale sense voltage of 81.92mV. Exposed Pad (Pin 11, DD Package Only): Exposed pad may be left open or connected to device ground (GND). 41511fa 6 LTC4151/LTC4151-1 BLOCK DIAGRAM VIN RS 2 VIN INTERNAL POWER 1 SENSE+ 10 SENSE– 6.3V 5μA 8 SHDN (LTC4151) 3 ADR1 4 ADR0 + 25X – DECODER SHUTDOWN CONTROL VREF = 2.048V 8 SDAO (LTC4151-1) 735k MUX 12-BIT ADC I2C/ REGISTERS 6V 7 SDA/SDAI (LTC4151/ LTC4151-1) 6 6V SCL 15k GND 9 5 ADIN 41511 BD OPERATION The LTC4151/LTC4151-1 accurately monitor high side current and voltages. These devices accept a wide range of input voltages from as low as 7V up to 80V and consume less than 1.7mA quiescent current in normal operation. A shutdown mode is available with the LTC4151 to reduce the quiescent current to less than 300μA by pulling the SHDN pin below 1V. In default continuous scan mode after power-up, the onboard 12-bit analog-to-digital converter (ADC) continuously and sequentially measures the high side differential voltage between SENSE+ (Kelvin sense of VIN) and SENSE– (full-scale 81.92mV) through an internal sense amplifier, the input voltage VIN (full-scale 102.4V) through an internal voltage divider, and the voltage applied to the ADIN pin (full-scale 2.048V). The reference voltage of the ADC is internally set to 2.048V. The digital data obtained by the ADC is stored in the onboard registers. In snapshot mode, the LTC4151/LTC4151-1 can perform on-demand measurement of a selected voltage without the need of continuous polling by a master controller. The snapshot mode is enabled by programming the control register through the I2C interface. A status bit in the data register monitors the ADC’s conversion. When the conversion is completed, the 12-bit digital code of the measured voltage is held in the corresponding data registers. The LTC4151/LTC4151-1 provide an I2C interface to read the ADC data from the data registers and to program the control register. Two three-state pins, ADR0 and ADR1, are used to decode nine device addresses (see Table 1). The LTC4151 features a single SDA pin to handle both input data and output data, while the LTC4151-1 provides separate SDAI (input) and SDAO (inverted output) pins to facilitate optoisolation. 41511fa 7 LTC4151/LTC4151-1 APPLICATIONS INFORMATION The LTC4151/LTC4151-1 offer a compact complete solution for high side power monitoring. With a wide operating voltage range from 7V to 80V, these devices are ideal for a variety of applications including consumer, automotive, industrial and telecom infrastructure. The simple application circuit as shown in Figure 1 provides monitoring of high side current with a 0.02Ω resistor (4.096A in fullscale), input voltage (102.4V in full-scale) and an external voltage (2.048V in full-scale), all with an internal 12-bit resolution ADC. Data Converter The LTC4151/LTC4151-1 feature an onboard, 12-bit analogto-digital converter (ADC) that continuously monitors three voltages in the sequence of (VSENSE+ – VSENSE–) first, VIN second and VADIN third. The differential voltage between SENSE+ and SENSE– is monitored with an 81.92mV fullscale and 20μV resolution that allows accurate measurement of the high side input current. SENSE+ is a Kelvin sense pin for the VIN pin and must be connected to VIN (see Figure 10) for proper ADC readout. The supply voltage at VIN is directly measured with a 102.4V full-scale and 25mV resolution. The voltage at the uncommitted ADIN pin is measured with a 2.048V full-scale and 0.5mV resolution that allows monitoring of any external voltage. The 12-bit digital code of each measured voltage is stored in two adjacent registers out of the six total data registers A through F with the eight MSBs in the first register and , the four LSBs in the second (Table 2). The data in registers A through F is refreshed at a frequency of 7.5Hz in continuous scan mode. Setting control register bit G4 (Table 6) invokes a test mode that halts updating of these registers so that they can be written to and read from for software testing. The data converter features a snapshot mode allowing users to make one-time measurements of a selected voltage (either the SENSE voltage, VIN voltage, or ADIN voltage). To enable snapshot mode, set control register bit G7 and write the two-bit code of the desired ADC channel to G6 and G5 (Table 6) using a Write Byte command. When the Write Byte command is completed, the ADC measures the selected voltage and a Busy Bit in the LSB data register is set to indicate that the data is not ready. After completing the conversion, the ADC is halted and the Busy Bit is reset to indicate that the data is ready. To make another measurement of the same voltage or to measure another voltage, first disable the snapshot mode for the previous measurement by clearing control bit G7, then re-enable the snapshot mode and write the code of the desired voltage according to the procedure described above. VIN 7V TO 80V 0.02Ω VOUT 1 SENSE+ 2 VIN LTC4151 SCL 3 4 ADR1 ADR0 GND 9 SDA ADIN 10 SENSE– 2k SHDN 8 6 7 SDA 5 VADIN 2k 3.3V VDD μ-Controller SCL 41511 F01 Figure 1. Monitoring High Side Current and Voltages Using the LTC4151 41511fa 8 LTC4151/LTC4151-1 APPLICATIONS INFORMATION I2C Interface The LTC4151/LTC4151-1 feature an I2C-compatible interface to provide access to six ADC data registers and a control register for monitoring the measured voltages. Figure 2 shows a general data transfer format using the I2C. The LTC4151 and LTC4151-1 are read-write slave devices and support SMBus Read Byte, Write Byte, Read Word and Write Word commands. The devices also support Read Page and Write Page commands that allow one to read or write more than two bytes of data. When using the Read Page and Write Page commands, the host need only to issue an initial register address and the internal register address pointer automatically increments by 1 after each byte of data is read or written. After the register address reaches 06h, it will be reset to 00h and continue the increment. Upon a Stop condition, the register address is reset to 00h. If desired, the Read Page and Write Page support can be disabled by clearing control register bit G3. The data formats for the above commands are shown in Figures 3 to 8. SDA a6 - a0 b7 - b0 b7 - b0 SCL S 1-7 8 9 1-7 8 9 1-7 8 9 P START CONDITION ADDRESS R/W ACK DATA ACK DATA ACK STOP CONDITION 41511 F02 Figure 2. General Data Transfer over I2C S ADDRESS W A 1 1 0 a3:a0 0 0 COMMAND X X X X X b2:b0 A DATA A P 0 b7:b0 0 41511 F03 S ADDRESS W A 1 1 0 a3:a0 0 0 COMMAND X X X X X b2:b0 A DATA A DATA A P 0 b7:b0 0 b7:b0 0 41511 F04 FROM MASTER TO SLAVE FROM SLAVE TO MASTER A: ACKNOWLEDGE (LOW) A: NOT ACKNOWLEDGE (HIGH) R: READ BIT (HIGH) W: WRITE BIT (LOW) S: START CONDITION P: STOP CONDITION Figure 4. LTC4151 Serial Bus SDA Write Word Protocol Figure 3. LTC4151 Serial Bus SDA Write Byte Protocol S ADDRESS W A 1 1 0 a3:a0 0 0 COMMAND X X X X X b2:b0 A DATA A DATA A ... ... DATA AP 41511 F05 S ADDRESS W A 1 1 0 a3:a0 0 0 COMMAND X X X X X b2:b0 AS 0 ADDRESS R A DATA A P 41511 F06 0 b7:b0 0 b7:b0 0 b7:b0 0 1 1 0 a3:a0 1 0 b7:b0 1 Figure 5. LTC4151 Serial Bus SDA Write Page Protocol Figure 6. LTC4151 Serial Bus SDA Read Byte Protocol S ADDRESS W A 1 1 0 a3:a0 0 0 COMMAND X X X X X b2:b0 AS 0 ADDRESS R A DATA A DATA A P 41511 F07 1 1 0 a3:a0 1 0 b7:b0 0 b7:b0 1 Figure 7. LTC4151 Serial Bus SDA Read Word Protocol S ADDRESS W A 1 1 0 a3:a0 0 0 COMMAND X X X X X b2:b0 AS 0 ADDRESS R A DATA A DATA ... ... DATA A P b7:b0 1 41511 F08 1 1 0 a3:a0 1 0 b7:b0 0 b7:b0 Figure 8. LTC4151 Serial Bus SDA Read Page Protocol 41511fa 9 LTC4151/LTC4151-1 APPLICATIONS INFORMATION Using Optoisolators with LTC4151-1 The LTC4151-1 splits the SDA line into SDAI (input) and SDAO (inverted output) for convenience of optocoupling with a host controller that sits at a different ground level. When using optoisolators with the LTC4151-1, connect the SDAI to the output of the incoming optocoupler and connect the SDAO to the anode of the outgoing optocoupler (see Figure 9). With the outgoing optocoupler clamping SDAO and internal 6V (5.5V minimum) clamps on SDAI and SCL, the pull-up resistors on these three pins can be directly connected to VIN. In this way (with SDAO rather than conventional SDAO), the need for a separate low voltage supply for pull-ups is eliminated. Start and Stop Conditions When the I2C bus is idle, both SCL and SDA must remain in the high state. A bus master signals the beginning of a transmission with a Start condition by transitioning SDA from high to low while SCL stays high. When the master has finished communicating with the slave, it issues a Stop condition by transitioning SDA from low to high while SCL stays high. The bus is then free for another transmission. RS 0.02Ω VIN 48V 1 SENSE+ 2 VIN LTC4151-1 3 4 ADR1 ADR0 GND 9 2 3 7 6 SDAI SDA0 ADIN 7 8 5 5 VADIN MOCD207M 1 8 SDA 41511 F09 Stuck-Bus Reset The LTC4151/LTC4151-1 I2C interface features a stuckbus reset timer. The low conditions of the SCL and the SDA/SDAI pins are OR’ed to start the timer. The timer is reset when both SCL and SDA/SDAI are pulled high. If the SCL pin or the SDA/SDAI pin is held low for over 33ms, the stuck-bus timer will expire and the internal I2C state machine will be reset to allow normal communication after the stuck-bus condition is cleared. The stuck-bus timer can be disabled by clearing control register bit G2. I2C Device Addressing Nine distinct I2C bus addresses are configurable using the three-state pins ADR0 and ADR1, as shown in Table 1. Address bits a6, a5 and a4 are configured to (110) and the least significant bit is the R/W bit. In addition, the LTC4151 and LTC4151-1 will respond to a mass write address (1100 110)b for writing to all LTC4151s and LTC4151-1s, regardless of their individual address settings. 3.3V 10 SENSE– SCL 6 R1 20k R2 20k R3 5.1k 8 MOCD207M 1 R4 0.51k R5 0.51k R6 10k R7 10k 7 6 2 3 SCL VDD 4 μ-Controller 4 5 Figure 9. Optoisolation of the I2C Interface Between LTC4151-1 and a Microcontroller 41511fa 10 LTC4151/LTC4151-1 APPLICATIONS INFORMATION Acknowledge The acknowledge signal is used for handshaking between the transmitter and the receiver to indicate that the last byte of data was received. The transmitter always releases the SDA line during the acknowledge clock pulse. The LTC4151/LTC4151-1 pull the SDA line low on the 9th clock cycle to acknowledge receipt of the data. If the slave fails to acknowledge by leaving SDA high, then the master can abort the transmission by generating a Stop condition. When the master is receiving data from the slave, the master must pull down the SDA line during the clock pulse to indicate receipt of a data byte, and that another byte is to be read. After the last byte has been received the master will leave the SDA line high (not acknowledge) and issue a Stop condition to terminate the transmission. Write Protocol The master begins a write operation with a Start condition followed by the seven bit slave address and the R/W bit set to zero. After the addressed LTC4151/LTC4151-1 acknowledge the address byte, the master then sends a command byte which indicates which internal register the master wishes to write. The LTC4151/LTC4151-1 acknowledge this and then latches the lower three bits of the command byte into its internal register address pointer. The master then delivers the data byte and the LTC4151 or LTC4151-1 acknowledges once more and latches the data Table 1. LTC4151/LTC4151-1 Device Addressing* DESCRIPTION HEX DEVICE ADDRESS a4 0 0 0 0 0 0 0 0 0 0 BINARY DEVICE ADDRESS a3 0 0 1 1 1 1 1 1 1 1 a2 1 1 0 0 0 0 1 1 1 1 a1 1 1 0 0 1 1 0 0 1 1 a0 0 1 0 1 0 1 0 1 0 1 R/W 0 X X X X X X X X X LTC4151/LTC4151-1 ADDRESS PINS ADR1 X H NC H NC NC L H L L ADR0 X L H H NC L H NC NC L into its internal register. If the master continues sending a second byte or more data bytes, as in a Write Word or Write Page command, the second byte or more data bytes will be acknowledged by the LTC4151/LTC4151-1, the internal register address pointer will increment automatically, and each byte of data will be latched into an internal register corresponding to the address pointer. The write operation terminates and the register address pointer resets to 00h when the master sends a Stop condition. Read Protocol The master begins a read operation with a Start condition followed by the seven bit slave address and the R/W bit set to zero. After the addressed LTC4151/LTC4151-1 acknowledge the address byte, the master then sends a command byte that indicates which internal register the master wishes to read. The LTC4151/LTC4151-1 acknowledge this and then latches the lower three bits of the command byte into its internal register address pointer. The master then sends a repeated Start condition followed by the same seven bit address with the R/W bit now set to one. The LTC4151/ LTC4151-1 acknowledge and send the contents of the requested register. The transmission terminates when the master sends a Stop condition. If the master acknowledges the transmitted data byte, as in a Read Word command, the LTC4151/LTC4151-1 will send the contents of the next register. If the master acknowledges the second data byte h a6 a5 Mass Write CC 1 1 0 CE 1 1 1 D0 1 1 2 D2 1 1 3 D4 1 1 4 D6 1 1 5 D8 1 1 6 DA 1 1 7 DC 1 1 8 DE 1 1 *H = Tie High; L = Tie to GND; NC = Open; X = Don’t Care 41511fa 11 LTC4151/LTC4151-1 APPLICATIONS INFORMATION Table 2. LTC4151/LTC4151-1 Register Address and Contents REGISTER ADDRESS* 00h 01h 02h 03h 04h 05h 06h 07h REGISTER NAME SENSE (A) SENSE (B) VIN (C) VIN (D) ADIN (E) ADIN (F) CONTROL (G) Reserved READ/WRITE R/W** R/W** R/W** R/W** R/W** R/W** R/W DESCRIPTION ADC Current Sense Voltage Data (8 MSBs) ADC Current Sense Voltage Data (4 LSBs) ADC VIN Voltage Data (8 MSBs) ADC VIN Voltage Data (4 LSBs) ADC ADIN Voltage Data (8 MSBs) ADC ADIN Voltage Data (4 LSBs) Controls ADC Operation Mode and Test Mode *Register address MSBs b7-b3 are ignored. **Writable if bit G4 is set. Table 3. SENSE Registers A (00h) and B (O1h)—Read/Write BIT A7:0, B7:4 B3 B2:0 NAME SENSE Voltage Data ADC Busy in Snapshot Mode Reserved OPERATION 12-Bit Data of Current Sense Voltage with 20μV LSB and 81.92mV Full-Scale 1 = SENSE Being Converted; 0 = SENSE Conversion Completed. Not Writable Always Returns 0. Not Writable Table 4. VIN Registers C (02h) and D (O3h)—Read/Write BIT C7:0, D7:4 D3 D2:0 NAME VIN Voltage Data ADC Busy in Snapshot Mode Reserved OPERATION 12-Bit Data of VIN Voltage with 25mV LSB and 102.4V Full-Scale 1 = VIN Being Converted; 0 = VIN Conversion Completed. Not Writable Always Returns 0, Not Writable Table 5. ADIN Registers E (04h) and F (O5h)—Read/Write BIT E7:0, F7:4 F3 F2:0 NAME ADIN Voltage Data ADC Busy in Snapshot Mode Reserved OPERATION 12-Bit Data of Current Sense Voltage with 500μV LSB and 2.048V Full-Scale 1 = ADIN Being Converted; 0 = ADIN Conversion Completed. Not Writable Always Returns 0, Not Writable Table 6. CONTROL Register G (06h)—Read/Write BIT G7 NAME ADC Snapshot Mode Enable ADC Channel Label for Snapshot Mode ADC Channel Label for Snapshot Mode Test Mode Enable Page Read/Write Enable Stuck-Bus Timer Enable Reserved OPERATION Enables ADC Snapshot Mode; 1 = Snapshot Mode Enabled. Only the channel selected by G6 and G5 is measured by the ADC. After the conversion, the channel busy bit is reset and the ADC is halted. 0 = Snapshot Mode Disabled (ADC free running, Default). ADC Channel Label for Snapshot Mode G6 0 0 1 G5 0 1 0 ADC CHANNEL SENSE (Default) VIN ADIN G6 G5 G4 G3 G2 G1:0 Test Mode Halts ADC Operation and Enables Writes to ADC Registers; 1 = Enable Test Mode, 0 = Disable Test Mode (Default) Enables Page Read/Write; 1 = Enable I2C Page Read/Write (Default), 0 = Disable I2C Page Read/Write Enables I2C Stuck-Bus Reset Timer; 1 = Enable Stuck-Bus Timer (Default), 0 = Disable Stuck-Bus Timer Always Returns 0, Not Writable 41511fa 12 LTC4151/LTC4151-1 APPLICATIONS INFORMATION and each of the following (if more) data bytes, as in a Read Page command, the LTC4151/LTC4151-1 will keep sending out each data byte in the register that corresponds to the incrementing register pointer. The read operation terminates and the register address pointer resets to 00h when the master sends a Stop condition. Layout Considerations A Kelvin connection between the sense resistor RS and the LTC4151/LTC4151-1 is recommended to achieve accurate current sensing (Figure 10). The minimum trace width for 1oz copper foil is 0.02" per amp to make sure the trace stays at a reasonable temperature. Using 0.03" per amp or wider is recommended. Note that 1oz copper exhibits a sheet resistance of about 530μΩ per square. VIN RS ILOAD SENSE+ VIN LTC4151 ADR1 ADR0 SENSE– GND GND ILOAD 41511 F10 Figure 10. Recommended Layout for Kelvin Connection TYPICAL APPLICATION Temperature Monitoring with an NTC Thermistor While Measuring Load Current and LTC4151 Supply Current 0.2Ω VIN 48V VISHAY 2381 615 4.104 100k AT 25°C 1% SENSE+ SENSE – VIN SCL I2C 250mA LOAD 40.2k 1% LTC4151 ADIN SDA ADR1 1.5k 1% GND ADR0 41511 TA02 T(°C) = 58.82 × (NADIN /NVIN – 0.1066), 20°C < T < 60°C. NADIN and NVIN are digital codes measured by the ADC at the ADIN and VIN pins, respectively. 41511fa 13 LTC4151/LTC4151-1 PACKAGE DESCRIPTION DD Package 10-Lead Plastic DFN (3mm × 3mm) (Reference LTC DWG # 05-08-1699) R = 0.115 TYP 6 0.675 ±0.05 0.38 ± 0.10 10 3.50 ±0.05 1.65 ±0.05 2.15 ±0.05 (2 SIDES) PACKAGE OUTLINE 0.25 ± 0.05 0.50 BSC 2.38 ±0.05 (2 SIDES) RECOMMENDED SOLDER PAD PITCH AND DIMENSIONS NOTE: 1. DRAWING TO BE MADE A JEDEC PACKAGE OUTLINE M0-229 VARIATION OF (WEED-2). CHECK THE LTC WEBSITE DATA SHEET FOR CURRENT STATUS OF VARIATION ASSIGNMENT 2. DRAWING NOT TO SCALE 3. ALL DIMENSIONS ARE IN MILLIMETERS 4. DIMENSIONS OF EXPOSED PAD ON BOTTOM OF PACKAGE DO NOT INCLUDE MOLD FLASH. MOLD FLASH, IF PRESENT, SHALL NOT EXCEED 0.15mm ON ANY SIDE 5. EXPOSED PAD SHALL BE SOLDER PLATED 6. SHADED AREA IS ONLY A REFERENCE FOR PIN 1 LOCATION ON THE TOP AND BOTTOM OF PACKAGE PIN 1 TOP MARK (SEE NOTE 6) 3.00 ±0.10 (4 SIDES) 1.65 ± 0.10 (2 SIDES) (DD) DFN 1103 5 0.200 REF 0.75 ±0.05 2.38 ±0.10 (2 SIDES) 1 0.25 ± 0.05 0.50 BSC 0.00 – 0.05 BOTTOM VIEW—EXPOSED PAD 41511fa 14 LTC4151/LTC4151-1 MS Package 10-Lead Plastic MSOP (Reference LTC DWG # 05-08-1661) 0.889 ± 0.127 (.035 ± .005) 5.23 (.206) MIN 3.20 – 3.45 (.126 – .136) 3.00 ± 0.102 (.118 ± .004) (NOTE 3) 0.50 0.305 ± 0.038 (.0197) (.0120 ± .0015) BSC TYP RECOMMENDED SOLDER PAD LAYOUT 10 9 8 7 6 0.497 ± 0.076 (.0196 ± .003) REF 0.254 (.010) GAUGE PLANE DETAIL “A” 0° – 6° TYP 4.90 ± 0.152 (.193 ± .006) 3.00 ± 0.102 (.118 ± .004) (NOTE 4) 12345 0.53 ± 0.152 (.021 ± .006) DETAIL “A” 0.18 (.007) SEATING PLANE 0.17 – 0.27 (.007 – .011) TYP 0.1016 ± 0.0508 (.004 ± .002) MSOP (MS) 0307 REV E 1.10 (.043) MAX 0.86 (.034) REF NOTE: 1. DIMENSIONS IN MILLIMETER/(INCH) 2. DRAWING NOT TO SCALE 3. DIMENSION DOES NOT INCLUDE MOLD FLASH, PROTRUSIONS OR GATE BURRS. MOLD FLASH, PROTRUSIONS OR GATE BURRS SHALL NOT EXCEED 0.152mm (.006") PER SIDE 4. DIMENSION DOES NOT INCLUDE INTERLEAD FLASH OR PROTRUSIONS. INTERLEAD FLASH OR PROTRUSIONS SHALL NOT EXCEED 0.152mm (.006") PER SIDE 5. LEAD COPLANARITY (BOTTOM OF LEADS AFTER FORMING) SHALL BE 0.102mm (.004") MAX 0.50 (.0197) BSC 41511fa Information furnished by Linear Technology Corporation is believed to be accurate and reliable. However, no responsibility is assumed for its use. Linear Technology Corporation makes no representation that the interconnection of its circuits as described herein will not infringe on existing patent rights. 15 LTC4151/LTC4151-1 TYPICAL APPLICATION High Side Current, Input Voltage and Open Fuse Monitoring with a Single LTC4151 F1 VIN1 48V VIN2 48V F2 D1 D2 RS 0.02Ω D3 D4 VIN SENSE+ SENSE– SCL LTC4151 I2C SDA ADR1 ADR0 GND R1 150k R2 301k V+ LOAD V– ADIN R3 3.4k GND 41511 TA02 CONDITION NADIN ≥ 1.375 • NVIN 0.835 • NVIN ≤ NADIN < 1.375 • NVIN 0.285 • NVIN ≤ NADIN < 0.835 • NVIN (Not Responding) RESULT Normal Operation F2 is Open F1 is Open Both F1 and F2 are Open VIN1 and VIN2 are within 20% apart. NADIN and NVIN are digital codes measured by the ADC at the ADIN and VIN pins, respectively. RELATED PARTS PART NUMBER LTC2451 LTC2453 LTC2970 LTC4215 LTC4260 LTC4261/ LTC4261-2 LTC6101/ LTC6101HV DESCRIPTION 16-Bit I2C Ultra Tiny Delta Sigma ADC 16-Bit I2C Ultra Tiny Delta Sigma ADC Power Supply Monitor and Margining Controller Positive Hot Swap Controller with ADC and I2C Positive High Voltage Hot Swap Controller with ADC and I2C Negative High Voltage Hot Swap Controller with ADC and I2C High Voltage, High Side Current Sense Amplifier in SOT-23 Package TM COMMENTS Single-Ended Input, 0 to VCC Input Range, 60Hz Output Rate, 3mm × 2mm DFN-8 Package Differential Input, ±VCC Input Range, 60Hz Output Rate, 3mm × 2mm DFN-8 Package 14-Bit ADC Monitoring Current and Voltages, Supplies from 8V to 15V 8-Bit ADC Monitoring Current and Voltages, Supplies from 2.9V to 15V 8-Bit ADC Monitoring Current and Voltages, Supplies from 8.5V to 80V 10-Bit ADC Monitoring Current and Voltages, Supplies from –12V Supplies from 4V to 60V (LTC6101) and 5V to 100V (LTC6101HV) Hot Swap and No Latency Delta Sigma are trademarks of Linear Technology Corporation. 41511fa 16 Linear Technology Corporation (408) 432-1900 ● FAX: (408) 434-0507 ● LT 0109 REV A • PRINTED IN USA 1630 McCarthy Blvd., Milpitas, CA 95035-7417 www.linear.com © LINEAR TECHNOLOGY CORPORATION 2008