ISP1109BS,118 NXP Semiconductors, ISP1109BS,118 Datasheet

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IMPORTANT NOTICE Dear customer from August 2 2008, the wireless operations of NXP have moved to a new company, ST-NXP Wireless result, the following changes are applicable to the attached document. ● Company name - Philips ...

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ISP1109 Universal Serial Bus transceiver with carkit support Rev. 01 — 14 July 2005 1. General description The ISP1109 is a Universal Serial Bus (USB) transceiver device that supports CEA 936 A, Mini-USB Analog Carkit Interface . It is fully ...

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Philips Semiconductors 4. Ordering information Table 1: Ordering information Type number Package Name ISP1109BS HVQFN32 9397 750 13355 Product data sheet Description plastic thermal enhanced very thin quad flat package; no leads; 32 terminals; body 0.85 ...

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Philips Semiconductors 5. Block diagram V CC(I/O) RESET_N 5 SPI_I2C_SEL 9 SPI_MISO 10 SPI_MOSI/ 11 I2C_SDA SPI_CLK/ 12 I2C_SCL SPI_CS/ 13 I2C_ADR INT_N 4 LEVEL SHIFTER 25 UART_TXD UART_RXD 26 DAT/VP 18 SE0/ OE_N RCV ...

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Philips Semiconductors 6. Pinning information 6.1 Pinning Fig 2. Pin configuration HVQFN32; top view. Fig 3. Pin configuration HVQFN32; bottom view. 9397 750 13355 Product data sheet USB transceiver with carkit support terminal 1 index area SPKR_R 1 SPKR_L 2 ...

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Philips Semiconductors 6.2 Pin description Table 2: Symbol SPKR_R SPKR_L V CC INT_N RESET_N SPEED SUSPEND V CC(I/O) SPI_I2C_ SEL SPI_MISO SPI_MOSI/ I2C_SDA 9397 750 13355 Product data sheet Pin description [1] [2] [3] Pin Type Reset state 1 AI ...

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Philips Semiconductors Table 2: Symbol SPI_CLK/ I2C_SCL SPI_CS/ I2C_ADR VM VP RCV SE0/VM DAT/VP V CC(I/O) OE_N REG3V3 DM DP GNDA 9397 750 13355 Product data sheet Pin description …continued [1] [2] [3] Pin Type Reset state 12 I/OD high-Z ...

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Philips Semiconductors Table 2: Symbol UART_TXD UART_RXD ISET ID_PU ID V BUS V REF MIC GNDD [1] Symbol names ending with underscore N—for example, NAME_N—indicate active LOW signals. [2] Use a decoupling capacitor of 0 all V [3] ...

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Philips Semiconductors 7. Functional description 7.1 Serial controller The serial controller includes the following functions: • Serial Controller interface (SPI or I • Device Identification registers • Control registers • Interrupt registers • Interrupt generator. The serial controller acts as ...

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Philips Semiconductors The ID detector has a switch that can be used to ground pin ID. This switch is controlled by bit ID_PULLDN of the Resistor Control register, and bits PH_ID_INT and PH_ID_ACK of the Audio Control register. See Table ...

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Philips Semiconductors The DP pull-down resistor (R the Resistor Control register is set. The DM pull-down resistor (R in the Resistor Control register is set. Fig 4. DP and DM pull-up and pull-down resistors. 7.5 Power block The built-in DC-DC ...

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Philips Semiconductors 7.7 Audio switches The audio switches provide low impedance path for analog audio signals to be multiplexed on the DP and DM lines, or loopback between the MIC and SPKR lines. There are five analog switches that are ...

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Philips Semiconductors • If the Power-down is because of the setting of register bit PWR_DN in the Mode Control register, the bias will be enabled if the V SESS_VLD threshold. Note: In this case, make sure bit SESS_VLD_IEH in the ...

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Philips Semiconductors Table 7: USB mode VP_VM VP_VM VP_VM 7.9.2 Differential receiver The operation of the differential receiver is described in Table 8: Pin or bit SUSPEND The detailed behavior of the receive transceiver operation ...

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Philips Semiconductors 7.10 Power-On Reset (POR) When will be typically 800 ns. The pulse is started when V PORP (1 2.5 V). To give a better view of the functionality and ...

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Philips Semiconductors 8. Modes of operation The ISP1109 supports four types of modes: • Power modes • Serial control modes • USB modes • Transparent modes. 8.1 Power modes 8.1.1 Normal mode In this mode, both V operation range (V ...

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Philips Semiconductors Table 10: ISP1109 power modes: summary CC(I/O) BUS off off X off off <V th(svc) on off >V th(svc Table 11 Table 11: ISP1109 pin ...

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Philips Semiconductors 8.3 USB modes The four USB modes of the ISP1109 are: • VP_VM unidirectional mode • VP_VM bidirectional mode • DAT_SE0 unidirectional mode (default) • DAT_SE0 bidirectional mode. In VP_VM USB mode, pin DAT/VP is used for the ...

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Philips Semiconductors • If UART_PIN_SEL = 1: – For the TxD signal: From SE0/VM (V – For the RxD signal: From DP (REG3V3 level) to DAT/VP (REG3V3 level). The ISP1109 is in transparent UART mode, if bit UART_EN of the ...

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Philips Semiconductors Table 14: Bit TRANSP_BDIR[1: 9397 750 13355 Product data sheet Transparent general-purpose buffer mode Direction of the data flow DAT/VP DAT/VP DAT/VP DAT/VP Rev. 01 — 14 July 2005 USB transceiver with carkit support ...

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Philips Semiconductors 9. Serial controller 9.1 Register map Table 15 Table 15: Register overview Register Width (bits) Vendor ID 16 Product ID 16 Version ID 16 Mode Control 1 8 Mode Control 2 8 Audio Control 8 Timer Control 8 ...

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Philips Semiconductors Table 17: Legend: * reset value Bit 9.1.1.3 Version ID register Table 18 Table 18: Legend: * reset value Bit 9.1.2 Control registers 9.1.2.1 Mode Control 1 register The bit allocation of ...

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Philips Semiconductors Table 21: Mode Control 2 register (address Set = 12h, Clear = 13h) bit allocation Bit 7 Symbol reserved Reset 0 Access R/S/C R/S/C Table 22: Bit 9.1.2.3 ...

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Philips Semiconductors Table 24: Bit 9.1.2.4 Timer Control register (S/C: 18h/19h) The bit allocation of the Timer Control register is given in Table 25: Timer Control register (address Set = 18h, Clear = 19h) bit ...

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Philips Semiconductors Table 28: Bit 9.1.3 Interrupt registers 9.1.3.1 Interrupt Source register Table 29 signals that can generate an interrupt. Table 29: Interrupt Source register (address 08h) bit allocation Bit 7 Symbol ...

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Philips Semiconductors Table 30: Bit 9.1.3.2 Interrupt Latch register This register indicates the source that generates an interrupt. For bit allocation, see Table 31. Table 31: Interrupt Latch register (address Set = ...

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Philips Semiconductors Table 32: Bit 9.1.3.3 Interrupt Enable Low register The bits in this register enable interrupts when the corresponding bits in the Interrupt Source register changes from logic 1 to logic 0. ...

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Philips Semiconductors 9.1.3.4 Interrupt Enable High register The bit allocation of the register is given in interrupts when the corresponding bits in the Interrupt Source register changes from logic 0 to logic 1. Table 35: Interrupt Enable High register (address ...

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Philips Semiconductors 9.3 SPI interface 9.3.1 Pinout description The SPI interface consists of four signals as given in Table 37: Pin name SPI_MOSI SPI_MISO SPI_CLK SPI_CS 9.3.2 Interface overview The SPI interface has the following characteristics: • The maximum clock ...

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Philips Semiconductors To read a field of data, pin SPI_MISO will output the data field pointed to by the five address bits loaded at the beginning of the SPI sequence. Figure 7 SPI_CS SPI_CLK write_en address 4 SPI_MOSI SPI_MISO Fig ...

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Philips Semiconductors 2 9.4.2 I C-bus device address 2 Table 39: I C-bus slave address bit allocation Bit 7 Symbol A6 Value 0 [1] Determined by logic level on pin I2C_ADR: LOW = 0, HIGH = 1. Table 40: Bit ...

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Philips Semiconductors Table 42: Byte Register address K ACK Write data K ACK Write data ACK : Write data ACK P Figure 9 S device select S device select write data ...

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Philips Semiconductors – Multiple-register read. 9.4.4.1 Current address read The transfer format description for a current address read is given in illustration, see Table 43: Byte S Device select ACK Read data K No ACK P Fig 10. Current address ...

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Philips Semiconductors Table 45: SDA line S Device select ACK Register address K ACK S Device select ACK Read data K ACK Read data ACK : Read data ACK P S device select ...

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Philips Semiconductors 10.1 Power-down event If V CC(I/O) (0 2.0 V), the ISP1109 is in Power-down mode and internal clocks are turned off. The internal clock—LazyClock or I set. It takes approximately 8 ms for the clock to ...

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Philips Semiconductors Fig 12. Human Body ESD test model. 11.2 ESD test conditions A detailed report on test setup and results is available on request. 9397 750 13355 Product data sheet 1500 charge current discharge limit ...

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Philips Semiconductors 12. Limiting values Table 46: Limiting values In accordance with the Absolute Maximum Rating System (IEC 60134). Symbol Parameter Voltage V supply voltage CC V I/O supply voltage CC(I/O) V input voltage input voltage BUS ...

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Philips Semiconductors 14. Static characteristics Table 48: Static characteristics: supply pins CC(I/O) Symbol Parameter Voltage V regulated supply voltage O(REG3V3) output Current I operating ...

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Philips Semiconductors Table 50: Static characteristics: digital pin ISET CC(I/O) Symbol Parameter Voltage V V threshold voltage for ISET th(ISET) CC function V V ...

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Philips Semiconductors Table 52: Static characteristics: analog I/O pins ID and ID_PU CC(I/O) Symbol Parameter Voltage V ID_GND comparator threshold th(ID_GND) V ID_FLOAT comparator ...

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Philips Semiconductors 15. Dynamic characteristics Table 55: Dynamic characteristics: reset and clock CC(I/O) Symbol Parameter Reset t pulse width on input RESET_N W(RESET_N) Internal ...

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Philips Semiconductors Table 57: Dynamic characteristics: analog I/O pins DP and CC(I/O) otherwise specified. Symbol Parameter Receiver timing Differential receiver t propagation delay ...

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Philips Semiconductors Fig 13. Rise and fall times. 1.8 V logic 0.9 V input PZH t PZL V OH differential V CRS data lines ...

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Philips Semiconductors 15.1 SPI bus characteristics SPI_CS SPI_CLK SPI_MOSI SPI_MISO Fig 18. SPI timing diagram. Table 60: SPI timing Symbol Parameter T SPI_CLK cycle time SPI_CLK t SPI_CLK HIGH or LOW time W(SPI_CLK) t SPI_CLK rise or fall time rf(SPI_CLK) ...

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Philips Semiconductors Table 61: Characteristics of I/O stages of I Symbol Parameter f SCL clock frequency SCL t hold time for the START HD;STA condition t LOW period of the SCL clock (SCL)L t HIGH period of the SCL clock ...

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Philips Semiconductors 16. Application information V CC(I/O) 0. SYS_RST RESET_N PHONE INT_N PROCESSOR SPI_I2C_SEL SPI_CS/I2C_ADR SPI_CLK/I2C_SCL SPI SPI_MOSI/I2C_SDA SPI_MISO UART_TXD UART UART_RXD OE_N DAT/VP SE0/VM USB RCV CC(I/O) SPEED ...

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Philips Semiconductors 17. Test information Fig 21. Load on pins DP and DM. Fig 22. Load on pins DP and DM for enable time and disable time. Fig 23. Load on pins VM, SE0/VM, VP, DAT/VP and RCV. 17.1 Test ...

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Philips Semiconductors Table 62: Parameter Measured ports [1] For details on switches S1, S2 and S3, see Fig 24. V 17.2 Audio crosstalk test conditions V sweeps from 2 4.2 V (DC waveform). CC 17.2.1 Test 1 • ...

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Philips Semiconductors • 12 Mbit USB data must be active on the DP and DM pins • All audio switches must be left open • MIC must be terminated using • SPKR_L and SPKR_R are each terminated ...

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Philips Semiconductors 18. Package outline HVQFN32: plastic thermal enhanced very thin quad flat package; no leads; 32 terminals; body 0.85 mm terminal 1 index area terminal 1 index area ...

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Philips Semiconductors 19. Soldering 19.1 Introduction to soldering surface mount packages This text gives a very brief insight to a complex technology. A more in-depth account of soldering ICs can be found in our Data Handbook IC26; Integrated Circuit Packages ...

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Philips Semiconductors – smaller than 1.27 mm, the footprint longitudinal axis must be parallel to the transport direction of the printed-circuit board. The footprint must incorporate solder thieves at the downstream end. • For packages with leads on four sides, ...

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Philips Semiconductors [4] These packages are not suitable for wave soldering. On versions with the heatsink on the bottom side, the solder cannot penetrate between the printed-circuit board and the heatsink. On versions with the heatsink on the top side, ...

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Philips Semiconductors 22. Revision history Table 65: Revision history Document ID Release date ISP1109_1 20050714 9397 750 13355 Product data sheet Data sheet status Change notice Product data sheet - Rev. 01 — 14 July 2005 ISP1109 USB transceiver with ...

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Philips Semiconductors 23. Data sheet status [1] Level Data sheet status Product status I Objective data Development II Preliminary data Qualification III Product data Production [1] Please consult the most recently issued data sheet before initiating or completing a design. ...

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Philips Semiconductors 28. Tables Table 1: Ordering information . . . . . . . . . . . . . . . . . . . . .2 Table 2: Pin description . . . . . . . ...

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Philips Semiconductors Table 63: Suitability of surface mount IC packages for wave and reflow soldering methods . . . . . . . . . . . . .51 Table 64: Abbreviations . . . . . . . . ...

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Philips Semiconductors 29. Figures Fig 1. Block diagram Fig 2. Pin configuration ...

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Philips Semiconductors 30. Contents 1 General description . . . . . . . . . . . . . . . . . . . . . . 1 2 Features . . . . . . . . ...

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Philips Semiconductors 19.4 Manual soldering . . . . . . . . . . . . . . . . . . . . . . 51 19.5 Package related soldering information . . . . . . 51 ...