CLT01-38SQ7-TR

CLT01-38SQ7 High speed digital input current limiter Datasheet - production data     • IEC61000-4-5: – Input: ±1 kV – Power supply: ±2.5 kV Application      %277209,(:                                    • Programmable logic controller and remote input modules • High speed protected termination for digital input with serialized SPI output • IEC61131-2 type 1, 2 and 3 • Compliant with EN60947-5-2              7239,(: 4)1[/ Features • 8 inputs - 8-bit SPI output • High side input with common ground • 5 V Voltage regulator • Package: QFN 7x7 - 48L • 30 V reverse polarity capable • Adjustable current limiters Benefits • Simplified design due to – Built-in over voltage robustness and immune data transfer – Compliance with sensors and PLC's standards • Space saving in cost effective solution with – Integrated QFN 7x7 package – SPI output reducing opto-couplers quantity • Energy efficient solution – Energy-less input LED visual status powered by inputs current – Low overall dissipation versus discrete • LED output for visual status • Optional: 16-bit mode with parity check, temperature and voltage alarms • Daisy chain capable • Power dissipation: 78 mW per channel Complies with following standards: • IEC61000-4-2: – ±8 kV contact discharge – ±15 kV air discharge Description The CLT01-38SQ7 provides an 8-line protected digital input termination with serialized state transfer. This device enhances the I/O module density by cutting the dissipation (78 mW per input) and reducing the count of opto-transistors. Its 6.25 MHz SPI peripheral output serializes the input state transfer to the I/O module controller. • IEC61000-4-4: – ±4 kV July 2015 This is information on a product in full production. DocID028182 Rev 1 1/18 www.st.com Circuit block diagram 1 CLT01-38SQ7 Circuit block diagram Figure 1. circuit block diagram VDD DVR MISO, /MISO control VDD LD1 VIN < VR 8 lines Data state register VR Input state register IN1 Logic control For i = 1 to 8 MISO /MISO 8 lines COMPP Write VDD MOSI Shift VDD Capture SCK VDD Transfer logic Current reference 8 lines REF MOSI VDD /CS Shift 16- bit Control state register Parity bits generator 4 lines SPM Power supply Power reset VDD Under voltage alarm Over temperature alarm Figure 2. Basic application schematic /(' /(' /(' /(' 55() 5() 9'' /(' &206 1& 026, &6 6&. 0,62 $&3/ :/ $&3/ ./ 9'' /(' '95 /(' /(' 630 &203 9, 9, 9, DocID028182 Rev 1 9, 9, 9, 5, ,1 ,1 5, 5, ,1 5, 5, ,1 9, ,1 5, ,1 5, ,1 ,1 5, 9&6 56 5& 9& 9&& 2/18 &203 &20 3 53' VC 9, VCS CLT01-38SQ7 1.1 Circuit block diagram I/O pin description Table 1. I/O pin descriptions Name Type INI Power input LDI Power output VC Power input 24 V sensor power supply 13 VCS Signal input 24 V sensor power supply sensing input 14 COMP Ground VDD Description Pin # Logic input with current limitation, I = 1 to 8 16, 17, 18, 19, 21, 22, 23, 24 LED output driver with current regulation, I = 1 to 8 34, 35, 36, 37, 38, 39, 40, 41 Power ground of power sensor supply Power output 5 V logic power supply 7, 15, 20, 31 1 COMS Ground Signal ground of logic / output section 43 REF Signal input Input current limiter reference setting 42 SPM Signal input SPI shift register length selector: -SPM to GND: 16 bits -SPM to VDD: 8 bits 4 /CS Logic input SPI chip Select signal 48 SCK Logic input SPI serial clock signal 47 MOSI Logic input SPI serial data input signal 46 DVR Logic input SPI data selector: -DVR to GND: pin 31 = MISO -DVR to VDD: pin 31 = /MISO 2 MISO or /MISO Logic output SPI serial data output signal or inverting SPI serial data output signal 44 TAB Substrate Exposed pad: connected to die substrate, to be connected to COMP TAB Not connected (or to be connected to COMP) 3, 5, 6, 8, 9, 10, 11, 12, 25, 26, 27, 28, 29, 30, 32, 33, 45 NC DocID028182 Rev 1 3/18 18 Circuit block diagram CLT01-38SQ7 /(' /(' /(' /(' /(' 5() &206 0,62RU0,62 1& 026, 6&. &6 Figure 3. Pinout description of the QFN7x7-48L version (top view) 9'' /(' '95 /(' 1& /(' 630 1& 1& 1& 1& &203 &20 3 1& 1& 1& 1& 1& 1& 1& 7$% 1& 1& 1& ,1 ,1 ,1 ,1 &20 3 ,1 ,1 ,1 ,1 &20 3 9&6 9& 1& The package is the QFN7x7-48L exposed pad that improves ground cooling transfer of input dissipation to the printed board. Figure 4. Basic module input characteristics in type 3 30 2.1mA VI (V) RI = 2.2 kΩ VI = V IN + RI x IIN 25 2.6mA ON RI 20 SCLT 15 11V 10 OFF 5 0 0 4/18 0.5 1 1.5 IIN (mA) DocID028182 Rev 1 2 2.5 3 CLT01-38SQ7 2 Characteristic information Characteristic information Table 2. Absolute maximum ratings Symbol Pin VCC Vc VC Conditions Value Unit Bus power supply DC voltage 500 Ω < Rc < 2.2 kΩ -0.3 to 35 V Vc CLT01-38SQ7 power supply voltage Rc = 0 kΩ -0.3 to 30 V ICC Vc Maximum bus power supply current 15 mA VCS VCS Sensing bus power supply voltage -0.3 to 6 V IDD VDD Maximum output power supply current Rc = 500 Ω 12 mA VI INI Input steady state voltage, I = 1 to 8 RI = 2.2 kΩ -30 to 35 V IIN INI Input forward current range -20 to 10 mA LVI SCK /CS MOSI Logic input voltage -0.3 to 6 V Storage temperature range -40 to 150 °C Ambient temperature range -40 to 105 °C Tstg Tamb All Parameter name DocID028182 Rev 1 5/18 18 Characteristic information CLT01-38SQ7 Table 3. Operating conditions Symbol Pin VCC Vc VDD VDD Internal logic power supply voltage IDD VDD Internal logic power supply voltage Rc > 500 Ω VI IN Input repetitive steady state voltage RI = 2.2 kΩ(2) VLD LDI Maximum LED output voltage, I = 1 to 8 FIN MAX IN Maximum single input frequency FSCK MAX LV Tamb Parameter name Conditions Bus power supply steady state voltage Value Unit 15 to 35(1) V 5 V 10 mA -30 to 35 V 2.7 V 200 kHz 6.25 MHz 0 to 5.5 V VCC ≤30 V -40 to 85 °C VCC ≤ 24 V Rth(j-a) = 70 °C/W -40 to 105 °C -40 to 150 °C Rc > 500 Ω 8-bit mode Maximum SPI clock frequency SCK /CS MOSI Logic input/output voltages MISO /MISO ALL Operating ambient temperature range Operating junction temperature range Tj 1. 32 V in DC; 35V during 0.5 s max 2. VI = VIN + RI x IIN Table 4. DC electrical characteristics based on figure 2 application environment Symbol Pin Name Conditions Min. Typ. Max. Unit 2.1 2.35 2.6 mA Input Current limitation ILIM IN Input limiting current VIN = 5.5 to 26 V RI = 2.2 kΩ ION LDI On state LED current VI = 11 V 6/18 DocID028182 Rev 1 2 mA CLT01-38SQ7 Characteristic information Table 5. SPI electrical characteristics (Tj = 25 °C, VCC = 24 V, VDD = 5 V respect to COM ground pin; unless otherwise specified) Symbol FCK Pin SCK Name Conditions Min. Typ. Clock frequency Max. Unit 6.25 MHz TCAPTURE Minimum data capture time FCK = 6.25 MHz 2.5 µs TPROPA Data transfer/Propagation time FCK = 6.25 MHz 4 µs 25 ns TS MOSI Data setup time MOSI toggling to SCK rising TD MISO Write out propagation time SCK falling to MISO toggling, COUT = 10 pF TLD SCK Enable lead time /CS falling to SCK rising 80 ns THC SCK Clock hold time SCK falling to /CS rising 160 ns TDT /CS Transfer delay time /CS rising to /CS falling TH MOSI Data hold time SCK rising to MOSI toggling TDIS MISO Data output disable time /CS rising to MISO disabled 200 ns LVIH MOSI SCK /CS Logic input high voltage Share of VDD 70 % Logic input low voltage Share of VDD 30 Logic output high voltage IOH = 3mA 4 Logic output low voltage IOL = 3mA LVIL LVOH /MISO MISO LVOL 50 150 25 % 4.75 TRO, TFO MISO /MISO MISO signal fall/rise time IMISO = 3mA 20 TA MISO Output access time /CS falling to MISO toggling 40 DuCy SCK Clock duty cycle DocID028182 Rev 1 ns ns 0.25 25 ns V 1 V ns 80 ns 75 % 7/18 18 Characteristic information CLT01-38SQ7 Figure 5. Time diagram 7)5$0( &6 7&+ 7/' 6&. 7&/  06% 0 8/18      /6% 0 7' 7$ 0,62 7+& 75 06% 6 7'7 76 7+ 026, 7) 06% 6 7',6   DocID028182 Rev 1 /6% 6 06% 0 CLT01-38SQ7 Characteristic information Table 6. Electromagnetic compatibility ratings Symbol Pin VPPB VI VPP Parameter name(1) Value Unit Peak pulse voltage burst, IEC61000-4-4(2) 4 KV VI Peak pulse voltage surge, IEC61000-4-5 1 kV VPP VCC Peak pulse voltage surge, IEC61000-4-5 2.5 kV VESD VIN ESD protection, IEC 61000-4-2, per input – air – contact 15 8 kV 1. Test set-up, see application Figure 2. 2. See AN3031. DocID028182 Rev 1 9/18 18 Functional description CLT01-38SQ7 3 Functional description 3.1 Operation of the CLT01-38SQ7 with the SPI bus (CPOL = 0, CPHA = 0) The SPI bus master controller manages the data transfer with the chip select signal /CS and controls the data shift in the register with the clock SCK signal. Figure 6. Serial data format frame &6 6&. 026, 0,62 '$7$&$3785(  06%0 06%6               /6%0 06%6       /6%6 06%0        The transfer of the CLT01-38SQ7 input states in the SPI registers starts when the Chip Select /CS signal falls and ends when this /CS is rising back. The transfer of data out of the CLT01-38SQ7 slave MISO output starts immediately when the chip select /CS goes low. Then, the input MOSI is captured and presented to the shift register on each rising edge of the clock SCK. And the data are shifted in this register on each falling edge of the serial clock SCK, the data bits being written on the output MISO with the most significant bit first. 3.1.1 The serial data Input MOSI This input signal MOSI is used to shift external data bits into the CLT01-38SQ7 register from the most significant MSB bit to the lower significant one LSB. The data bits are captured by the CLT01-38SQ7 on the rising edge of the serial clock signal SCK. 3.2 The SPI data transfer operation 3.2.1 The SPI data frame Depending on the biasing of the SPM pin, the data frame is 8-bits or 16-bits. The selected structure of the SPI is a 16-bit word in order to be able to implement the input state data and some control bits such as the UVA alarm, the 4 checksum bits and the two low & high state stop bits. 10/18 DocID028182 Rev 1 CLT01-38SQ7 3.2.2 Functional description The SPI data transfer The CLT01-38SQ7 transfers its 16 data bits through the SPI within one chip select Hi-Lo-Hi sequence. So, this length defines the minimum length that the shift register of the SPI master controller is able to capture: 16 bits. The Table 7 shows the 16-bit mode way the data are transferred starting from the data bits, the control bits and ending by a stop bit. Table 7. SPI data transfer organization versus CLT input states with SPM = 0 Bit # LSB Bit 1 Bit 2 Bit 3 Bit 4 Bit 5 Bit 6 Bit 7 Control High Low PC4 PC3 PC2 PC1 /OTA /UVA Last out Bit # Bit 8 Bit 9 Bit 10 Bit 11 Bit 12 Bit 13 Bit 14 MSB Data IN 1 IN 2 IN 3 IN 4 IN 5 IN 6 IN 7 IN 8 First out 3.3 Control bit signals of the SPI transferred data frame 3.3.1 The power bus voltage monitoring The UVA circuit generates the alarm /UVA that is active low when the power bus voltage is lower than the activation threshold VCON, 17 V typical, and it is disabled high when the power bus voltage rises above the threshold VCOFF, 18 V typical. 3.3.2 The over temperature alarm The alarm signal /OTA is enabled, low state active, when the junction temperature is higher than the activation threshold TON, 150 ºC typical, and it is disabled when the junction temperature falls below the threshold TOFF, 140ºC typical. DocID028182 Rev 1 11/18 18 Functional description 3.3.3 CLT01-38SQ7 The parity checksum bits calculation and transfer The aim of the parity checksum bit is to detect one error in the transferred SPI word. Several parity checksum bits are generated and transmitted through the SPI on the control bit #2 to #5. In order to calculate parity bit, “exclusive NOR” operations are performed as follow: Table 8. CLT01-38SQ7 parity bit calculation example 3.4 IN8 IN7 IN6 IN5 IN4 IN3 IN2 IN1 1 0 0 1 1 0 0 1 PC1 PC2 PC3 PC4 1 1 1 1 Loss of VCC power supply The operation of the CLT01-38SQ7 is extended below the levels required in the IEC 611312 standard to allow the implementation of the under voltage alarm UVA as described the SPI control bit section. If there is no more power feeding on the VCC input, the CLT01-38SQ7 chip goes to sleep mode, and the MISO output is forced in low state during SPI transfer attempt. The last SPI control data bit is a stop bit placed normally in high state all time: the loss of power supply is detected by checking its state: if low, the output is disabled by the internal power reset POR. This POR signal is active in low state when VC is less than 9V or the internal power supply VDD is less than 3.25 V. Table 9. Logic state of the SPI output versus the power loss signal POR and the SPI chip select /CS 12/18 POR /CS MISO /MISO SPI status 1 1 Z Z Normal with no communication 1 0 1 0 Normal with communication 1 0 0 1 Normal with communication 0 1 Z Z Power loss with no communication 0 0 0 1 Power loss with communication attempt DocID028182 Rev 1 CLT01-38SQ7 Functional description Figure 7. Logic status of the SCLT3-8BQ7 power supply 3RZHUVXSSO \VWDWXV 3RZHUVXSSO\VWDWXV /RVVRISR ZHU /RVVRISRZHU 89$ODUP 9 3RZHUJRRG 9 9 9& 9 &&  5 & [, & ,'' a9 9 9 9&& ,(&OH YHO 9 9& 89$ &6 /R 325 &6 /R 0,62 &6 /R  , 1 $6,& 0,62QRQLQYHU WLQJLVRODWRU Figure 8. Typical limiting current ILIM versus reference resistance RREF ,/,0 P$  9&& 99 , 9      55() N:       Figure 9. Typical limiting current ILIM versus junction temperature TJ  ,/,0 P$ 5UHI NȍZLWK5,1 Nȍ9, WR99 && WR9       7- ƒ&       DocID028182 Rev 1     13/18 18 Functional description CLT01-38SQ7 Figure 10. Relative variation of minimum filter time tFT versus junction temperature TJ  7)70,1  7 )70,1 ƒ&   526& NŸ  526& 0Ÿ   7- ƒ&        Figure 11. Variation of junction to ambient thermal resistance Rth(j-a) versus printed circuit board copper surface SCU 5WKMDƒ&: 3ULQWHGFLUFXLWERDUG )5HSR[\ VLQJOHOD\HU FRSSHUWKLFNQHVV —P       6 &8PPð    14/18      DocID028182 Rev 1     CLT01-38SQ7 4 Package information Package information In order to meet environmental requirements, ST offers these devices in different grades of ECOPACK® packages, depending on their level of environmental compliance. ECOPACK® specifications, grade definitions and product status are available at: www.st.com. ECOPACK® is an ST trademark. QFN7x7-48L package information Figure 12. QFN7x7-48L package outline &  ' H 3,1 $    H E ( (   /  E . ' $ $ ' 4.1 GGG & #PUUPN
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WJFX DocID028182 Rev 1 15/18 18 Package information CLT01-38SQ7 Table 10. QFN7x7-48L package mechanical data Dimensions Ref. Inches(1) Millimeters Min. Typ. Max. Min. Typ. Max. 0.80 0.90 1.00 0.0315 0.0354 0.0394 A1 0.02 0.05 0.0008 0.0020 A3 0.203 A b 0.18 0.25 0.008 0.30 0.0071 D 7.00 0.275 E 7.00 0.275 e 0.50 0.019 0.0118 D2 5.00 5.15 5.25 0.197 0.203 0.206 E2 5.00 5.15 5.25 0.197 0.203 0.206 K 0.20 L 0.30 0.015 0.019 0.008 0.40 0.50 0.011 1. Values in inches are converted from mm and rounded to 4 decimal digits. 16/18 0.0100 DocID028182 Rev 1 CLT01-38SQ7 5 Ordering information Ordering information Figure 13. Ordering information scheme &/764 &XUUHQWOLPLWLQJWHUPLQDWLRQ 9HUVLRQ &XUUHQWOLPLWDWLRQ HLJKWFKDQQHOV 6HULDO 44)1  /[ Table 11. Ordering information 6 Order code Marking Package Weight Base qty Delivery mode CLT01-38SQ7 CLT01-38SQ7 QFN7x7-48L 114 mg 2500 Tape and reel Revision history Table 12. Document revision history Date Revision 31-July-2015 1 Changes Initial release. DocID028182 Rev 1 17/18 18 CLT01-38SQ7 IMPORTANT NOTICE – PLEASE READ CAREFULLY STMicroelectronics NV and its subsidiaries (“ST”) reserve the right to make changes, corrections, enhancements, modifications, and improvements to ST products and/or to this document at any time without notice. Purchasers should obtain the latest relevant information on ST products before placing orders. ST products are sold pursuant to ST’s terms and conditions of sale in place at the time of order acknowledgement. Purchasers are solely responsible for the choice, selection, and use of ST products and ST assumes no liability for application assistance or the design of Purchasers’ products. No license, express or implied, to any intellectual property right is granted by ST herein. Resale of ST products with provisions different from the information set forth herein shall void any warranty granted by ST for such product. ST and the ST logo are trademarks of ST. All other product or service names are the property of their respective owners. Information in this document supersedes and replaces information previously supplied in any prior versions of this document. © 2015 STMicroelectronics – All rights reserved 18/18 DocID028182 Rev 1