ISP1507A; ISP1507B ULPI Hi-Speed USB On-The-Go transceiver Rev. 04 — 20 May 2010 Product data sheet 1. General description The ISP1507 is a Universal Serial Bus (USB) On-The-Go (OTG) transceiver that is fully compliant with Universal Serial Bus Specification Rev. 2.0, On-The-Go Supplement to the USB 2.0 Specification Rev. 1.3 and UTMI+ Low Pin Interface (ULPI) Specification Rev. 1.1. The ISP1507 can transmit and receive USB data at high-speed (480 Mbit/s), full-speed (12 Mbit/s) and low-speed (1.5 Mbit/s), and provides a pin-optimized, physical layer front-end attachment to USB host, peripheral and OTG devices. It is ideal for use in portable electronic devices, such as mobile phones, digital still cameras, digital video cameras, Personal Digital Assistants (PDAs) and digital audio players. It allows USB Application-Specific Integrated Circuits (ASICs), Programmable Logic Devices (PLDs) and any system chip set to interface with the physical layer of the USB through a 12-pin interface. The ISP1507 can interface to the link with digital I/O voltages in the range of 1.65 V to 3.6 V. The ISP1507 is available in HVQFN32 package. 2. Features Fully complies with: Universal Serial Bus Specification Rev. 2.0 On-The-Go Supplement to the USB 2.0 Specification Rev. 1.3 UTMI+ Low Pin Interface (ULPI) Specification Rev. 1.1 Interfaces to host, peripheral and OTG device cores; optimized for portable devices or system ASICs with built-in USB OTG device core Complete Hi-Speed USB physical front-end solution that supports high-speed (480 Mbit/s), full-speed (12 Mbit/s) and low-speed (1.5 Mbit/s) Integrated 45 Ω ± 10 % high-speed termination resistors, 1.5 kΩ ± 5 % full-speed device pull-up resistor, and 15 kΩ ± 5 % host termination resistors Integrated parallel-to-serial and serial-to-parallel converters to transmit and receive USB clock and data recovery to receive USB data up to ±500 ppm Insertion of stuff bits during transmit and discarding of stuff bits during receive Non-Return-to-Zero Inverted (NRZI) encoding and decoding Supports bus reset, suspend, resume and high-speed detection handshake (chirp) Complete USB OTG physical front-end that supports Host Negotiation Protocol (HNP) and Session Request Protocol (SRP) ISP1507A; ISP1507B ULPI HS USB OTG transceiver Integrated 5 V charge pump; also supports external charge pump or 5 V VBUS switch Complete control over bus resistors Data line and VBUS pulsing session request methods Integrated VBUS voltage comparators Integrated cable (ID) detector Highly optimized ULPI-compliant 60 MHz, 12-bit interface between the core and the transceiver Supports 60 MHz output clock configuration Integrated Phase-Locked Loop (PLL) supporting one crystal or clock frequency: 19.2 MHz (ISP1507A) and 26 MHz (ISP1507B) Fully programmable ULPI-compliant register set Internal Power-On Reset (POR) circuit Flexible system integration and very low current consumption, optimized for portable devices Power-supply input range is 3.0 V to 3.6 V Internal voltage regulator supplies 3.3 V and 1.8 V Charge pump regulator outputs 4.65 V to 5.25 V at a current of up to 50 mA, tunable using an external capacitor Supports external VBUS charge pump or 5 V VBUS switch: External VBUS source is controlled using the PSW_N pin; open-drain PSW_N allows per-port or ganged power control Digital FAULT input to monitor the external VBUS supply status Pin CHIP_SELECT_N 3-states the ULPI interface, allowing bus reuse for other applications Supports wide range interfacing I/O voltage of 1.65 V to 3.6 V; separate I/O voltage pins minimize crosstalk Typical operating current of 11 mA to 48 mA, depending on the USB speed and bus utilization; not including the charge pump Typical suspend current of 35 μA Full industrial grade operating temperature range from −40 °C to +85 °C 4 kV ElectroStatic Discharge (ESD) protection at pins DP, DM, ID, VBUS and GND Available in a small HVQFN32 (5 mm × 5 mm) Restriction of Hazardous Substances (RoHS) compliant, halogen-free and lead-free package 3. Applications Digital still camera Digital TV Digital Video Disc (DVD) recorder External storage device, for example: Magneto-Optical (MO) drive Optical drive: CD-ROM, CD-RW, DVD Zip drive Mobile phone MP3 player CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 2 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver PDA Printer Scanner Set-Top Box (STB) Video camera 4. Ordering information Table 1. Ordering information Commercial product code Marking Crystal or clock Package description frequency Packing ISP1507ABSTM 507A[1] 19.2 MHz HVQFN32; 32 terminals; body 5 × 5 × 0.85 mm 13 inch tape and reel 6000 pieces non-dry pack ISP1507BBSTM 507B[1] 26 MHz HVQFN32; 32 terminals; body 5 × 5 × 0.85 mm 13 inch tape and reel 6000 pieces non-dry pack [1] Minimum sellable quantity The package marking is the first line of text on the IC package and can be used for IC identification. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 3 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 5. Block diagram 27 CLOCK ULPI INTERFACE DATA [7:0] 5 USB DATA SERIALIZER 8 DIR STP NXT CHIP_SELECT_N RESET_N 1, 23 to 26, 28, 31, 32 ULPI INTERFACE CONTROLLER 19 DRV VBUS 21 VBUS VALID EXTERNAL REGISTER MAP 29 VCC(I/O) TERMINATION RESISTORS REG1V8 VCC DM USB CABLE ON-THE-GO MODULE DRV VBUS EXTERNAL ID DETECTOR 7 ID VBUS COMPARATORS 13 GLOBAL RESET PLL 15 16 5 V CHARGE PUMP SUPPLY CRYSTAL OSCILLATOR 10 C_A 9 C_B 8 CPGND ISP1507 2, 22, 30 interface voltage 6 14 12 18 11 VBUS SRP CHARGE AND DISCHARGE RESISTORS internal power REG3V3 4 17 GLOBAL CLOCKS XTAL2 USB DATA DESERIALIZER 20 POWER-ON RESET XTAL1 DP HI-SPEED USB ATX VOLTAGE REGULATOR VREF BAND GAP REFERENCE VOLTAGE 3 FAULT PSW_N RREF 004aab035 Fig 1. Block diagram CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 4 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 6. Pinning information 25 DATA5 26 DATA4 27 CLOCK 28 DATA3 29 CHIP_SELECT_N 30 VCC(I/O) terminal 1 index area 31 DATA2 32 DATA1 6.1 Pinning DATA0 1 24 DATA6 VCC(I/O) 2 23 DATA7 RREF 3 22 VCC(I/O) DM 4 DP 5 FAULT 6 19 DIR ID 7 18 REG1V8 CPGND 8 17 RESET_N 21 NXT XTAL2 16 XTAL1 15 20 STP REG3V3 14 VBUS 13 PSW_N 12 VCC 11 9 C_B C_A 10 ISP1507 004aab036 Transparent top view Fig 2. Pin configuration HVQFN32; top view 6.2 Pin description Table 2. Pin description Symbol[1][2] Pin Type[3] Description[4] DATA0 1 I/O pin 0 of the bidirectional ULPI data bus slew-rate controlled output (1 ns); plain input; programmable pull down VCC(I/O) 2 P I/O supply rail RREF 3 AI/O resistor reference DM 4 AI/O data minus (D−) pin of the USB cable DP 5 AI/O data plus (D+) pin of the USB cable FAULT 6 I input pin for the external VBUS digital overcurrent or fault detector signal If this pin is not in use, connect it to GND. plain input; 5 V tolerant ID 7 I identification (ID) pin of the micro-USB cable If this pin is not used, it is recommended to connect to REG3V3. plain input; TTL level CPGND 8 P charge pump ground C_B 9 AI/O flying capacitor pin connection for the charge pump If this pin is not in use, it must be left floating. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 5 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver Table 2. Pin description …continued Symbol[1][2] Pin Type[3] Description[4] C_A 10 AI/O flying capacitor pin connection for the charge pump If this pin is not in use, it must be left floating. VCC 11 P input supply voltage or battery source PSW_N 12 OD active LOW external VBUS power switch or external charge pump enable VBUS 13 AI/O open-drain; 5 V tolerant VBUS pin of the USB cable 5 V tolerant REG3V3 14 P 3.3 V regulator output; requires parallel 0.1 μF and 4.7 μF capacitors; internally powers ATX and other analog circuits; must not be used to power external circuits XTAL1 15 AI crystal oscillator or clock input XTAL2 16 AO crystal oscillator output RESET_N 17 I active LOW, asynchronous reset input plain input REG1V8 18 P 1.8 V regulator output; requires parallel 0.1 μF and 4.7 μF capacitors; internally powers the digital core; must not be used to power external circuits DIR 19 O ULPI direction signal slew-rate controlled output (1 ns) STP 20 I ULPI stop signal NXT 21 O ULPI next signal plain input; programmable pull up slew-rate controlled output (1 ns) VCC(I/O) 22 P I/O supply rail DATA7 23 I/O pin 7 of the bidirectional ULPI data bus slew-rate controlled output (1 ns); plain input; programmable pull down DATA6 24 I/O pin 6 of the bidirectional ULPI data bus slew-rate controlled output (1 ns); plain input; programmable pull down DATA5 25 I/O pin 5 of the bidirectional ULPI data bus slew-rate controlled output (1 ns); plain input; programmable pull down DATA4 26 I/O pin 4 of the bidirectional ULPI data bus slew-rate controlled output (1 ns); plain input; programmable pull down CLOCK 27 O 60 MHz clock output slew-rate controlled output (1 ns); plain input DATA3 28 I/O pin 3 of the bidirectional ULPI data bus slew-rate controlled output (1 ns); plain input; programmable pull down CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 6 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver Table 2. Pin description …continued Symbol[1][2] Pin CHIP_SELECT_N 29 Type[3] Description[4] I active LOW chip select If this pin is not in use, connect it to GND. plain input VCC(I/O) 30 P I/O supply rail DATA2 31 I/O pin 2 of the bidirectional ULPI data bus slew-rate controlled output (1 ns); plain input; programmable pull down DATA1 32 I/O pin 1 of the bidirectional ULPI data bus slew-rate controlled output (1 ns); plain input; programmable pull down GND die pad P ground supply; down bonded to the exposed die pad (heat sink); to be connected to the PCB ground [1] Symbol names ending with underscore N, for example, NAME_N, indicate active LOW signals. [2] For details on external components required on each pin, see list of materials and application diagrams in Section 16. [3] I = input; O = output; I/O = digital input/output; OD = open-drain output; AI = analog input; AO = analog output; AI/O = analog input/output; P = power or ground pin. [4] A detailed description of these pins can be found in Section 7.9. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 7 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 7. Functional description 7.1 ULPI interface controller The ISP1507 provides a 12-pin interface that is compliant with UTMI+ Low Pin Interface (ULPI) Specification Rev. 1.1. This interface must be connected to the USB link. The ULPI interface controller provides the following functions: • • • • • • • • • • • ULPI-compliant and register set Allows full control over the USB peripheral, host and OTG functionality Parses USB transmit and receive data Prioritizes USB receive data, USB transmit data, interrupts and register operations Low-power mode Control of the VBUS charge pump or external source VBUS monitoring, charging and discharging 6-pin serial mode and 3-pin serial mode Generates RXCMDs; status updates Maskable interrupts Control over the ULPI bus state, allowing pins to 3-state or attach active weak pull-down resistors For more information on the ULPI protocol, see Section 9. 7.2 USB data serializer and deserializer The USB data serializer prepares data to transmit on the USB bus. To transmit data, the USB link sends a transmit command and data on the ULPI bus. The serializer performs parallel-to-serial conversion, bit stuffing and NRZI encoding. For packets with a PID, the serializer adds a SYNC pattern to the start of the packet, and an EOP pattern to the end of the packet. When the serializer is busy and cannot accept any more data, the ULPI interface controller deasserts NXT. The USB data deserializer decodes data received from the USB bus. When data is received, the deserializer strips the SYNC and EOP patterns, and then performs serial-to-parallel conversion, NRZI decoding and discarding of stuff bits on the data payload. The ULPI interface controller sends data to the USB link by asserting DIR, and then asserting NXT whenever a byte is ready. The deserializer also detects various receive errors, including bit stuff errors, elasticity buffer underrun or overrun, and byte-alignment errors. 7.3 Hi-Speed USB (USB 2.0) ATX The Hi-Speed USB ATX block is an analog front-end containing the circuitry needed to transmit, receive and terminate the USB bus in high-speed, full-speed and low-speed, for USB peripheral, host and OTG implementations. The following circuitry is included: • Differential drivers to transmit data at high-speed, full-speed and low-speed CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 8 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver • Differential and single-ended receivers to receive data at high-speed, full-speed and low-speed • • • • • Squelch circuit to detect high-speed bus activity High-speed disconnect detector 45 Ω high-speed bus terminations on DP and DM for peripheral and host modes 1.5 kΩ pull-up resistor on DP for full-speed peripheral mode 15 kΩ bus terminations on DP and DM for host and OTG modes For details on controlling resistor settings, see Table 8. 7.4 Voltage regulator The ISP1507 contains a built-in voltage regulator that conditions the VCC supply for use inside the ISP1507. The voltage regulator: • Supports input supply range of 3.0 V < VCC < 3.6 V • Supplies internal circuitry with 1.8 V and 3.3 V Remark: The REG1V8 and REG3V3 pins require external decoupling capacitors. For details, see Section 16. 7.5 Crystal oscillator and PLL The ISP1507 has a built-in crystal oscillator and a Phase-Locked Loop (PLL) for clock generation. The crystal oscillator takes a sine-wave input from an external crystal on the XTAL1 pin, and converts it to a square wave clock for internal use. Alternatively, a square wave clock of the same frequency can also be directly driven into the XTAL1 pin. Using an existing square wave clock can save the cost of a crystal and also reduce the board size. The PLL takes the square wave clock from the crystal oscillator and multiplies or divides it into various frequencies for internal use. The PLL produces the following frequencies, irrespective of the clock source: • • • • • 60 MHz clock for the ULPI interface controller 1.5 MHz for the low-speed USB data 12 MHz for the full-speed USB data 480 MHz for the high-speed USB data Other internal frequencies for data conversion and data recovery 7.6 OTG module This module contains several sub-blocks that provide all the functionality required by the USB OTG specification. Specifically, it provides the following circuits: • The ID detector to sense the ID pin of the micro-USB cable. The ID pin dictates which device is initially configured as the host and which as the peripheral. • VBUS comparators to determine the VBUS voltage level. This is required for the VBUS detection, SRP and HNP. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 9 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver • Resistors to temporarily charge and discharge VBUS. This is required for SRP. • Charge pump to provide 5 V power on VBUS. The downstream peripheral can draw its power from the ISP1507 VBUS. 7.6.1 ID detector The ID detector detects which end of the micro-USB cable is plugged in. The detector must first be enabled by setting the ID_PULLUP register bit to logic 1. If the ISP1507 senses a value on ID that is different from the previously reported value, an RXCMD status update will be sent to the USB link, or an interrupt will be asserted. • If the micro-B end of the cable is plugged in, the ISP1507 will report that ID_GND is logic 1. The USB link must change to peripheral mode. • If the micro-A end of the cable is plugged in, the ISP1507 will report that ID_GND is logic 0. The USB link must change to host mode. 7.6.2 VBUS comparators The ISP1507 provides three comparators, VBUS valid comparator, session valid comparator and session end comparator, to detect the VBUS voltage level. 7.6.2.1 VBUS valid comparator This comparator is used by hosts and A-devices to determine whether the voltage on VBUS is at a valid level for operation. The ISP1507 minimum threshold for the VBUS valid comparator is 4.4 V. Any voltage on VBUS below this threshold is considered invalid. During power-up, it is expected that the comparator output will be ignored. 7.6.2.2 Session valid comparator The session valid comparator is a TTL-level input that determines when VBUS is high enough for a session to start. Peripherals, A-devices and B-devices use this comparator to detect when a session is started. The A-device also uses this comparator to determine when a session is completed. The session valid threshold of the ISP1507 is VB_SESS_VLD, with a hysteresis of Vhys(B_SESS_VLD). 7.6.2.3 Session end comparator The ISP1507 session end comparator determines when VBUS is below the B-device session end threshold. The B-device uses this threshold to determine when a session has ended. The session end threshold of the ISP1507 is VB_SESS_END. 7.6.3 SRP charge and discharge resistors The ISP1507 provides on-chip resistors for short-term charging and discharging of VBUS. These are used by the B-device to request a session, prompting the A-device to restore the VBUS power. First, the B-device makes sure that VBUS is fully discharged from the previous session by setting the DISCHRG_VBUS register bit to logic 1 and waiting for SESS_END to be logic 1. Then the B-device charges VBUS by setting the CHRG_VBUS register bit to logic 1. The A-device sees that VBUS is charged above the session valid threshold and starts a session by turning on the VBUS power. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 10 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 7.6.4 Charge pump The ISP1507 uses a built-in charge pump to supply current to VBUS at a nominal voltage of 5 V. The charge pump works as a capacitive DC-DC converter. An external holding capacitor, Ccp(C_A)-(C_B), is required between the C_A and C_B pins as shown in Figure 3, which also shows a typical OTG VBUS load. The value of Ccp(C_A)-(C_B) depends on the amount of current drive required. If the internal charge pump is not used, the Ccp(C_A)-(C_B) capacitor is not required. For details on the C_A and C_B pins, see Section 7.9.8. VBUS OTG VBUS 0.1 μF 4.7 μF ISP1507 C_B Ccp(C_A)-(C_B) C_A 004aab037 Fig 3. External capacitors connection 7.7 Band gap reference voltage The band gap circuit provides a stable internal voltage reference to bias the analog circuitry. The band gap requires an accurate external reference, RRREF, resistor connected between the RREF pin and GND. For details, see Section 16. 7.8 Power-On Reset (POR) The ISP1507 has an internal power-on reset circuit that resets all internal logic on power-up. The ULPI interface is also reset on power-up. Remark: When CLOCK starts toggling after power-up, the USB link must issue a reset command over the ULPI bus to ensure correct operation of the ISP1507. 7.9 Detailed description of pins 7.9.1 DATA[7:0] The ISP1507 is a Physical layer (PHY) containing a USB transceiver. DATA[7:0] is the bidirectional data bus. The USB link must drive DATA[7:0] to LOW when the ULPI bus is idle. When the link has data to transmit to the PHY, it drives a nonzero value. The data bus can be reconfigured to carry various data types, as given in Section 8 and Section 9. The DATA[7:0] pins can be 3-stated by driving pin CHIP_SELECT_N to HIGH. Weak pull-down resistors are incorporated into the DATA[7:0] pins as part of the interface protect feature. For details, see Section 9.3.1. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 11 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 7.9.2 VCC(I/O) The input power pin that sets the I/O voltage level. For details, see Section 12, Section 13 and Section 16. VCC(I/O) provides power to on-chip pads of the following pins: • • • • • • • CHIP_SELECT_N CLOCK DATA[7:0] DIR NXT RESET_N STP 7.9.3 RREF Resistor reference analog I/O pin. A resistor, RRREF, must be connected between RREF and GND, as shown in Section 16. This provides an accurate voltage reference that biases internal analog circuitry. Less accurate resistors cannot be used and will render the ISP1507 unusable. 7.9.4 DP and DM The DP (data plus) and DM (data minus) are USB differential data pins. These must be connected to the D+ and D− pins of the USB receptacle. 7.9.5 FAULT If an external VBUS overcurrent or fault circuit is used, the output fault indicator of that circuit can be connected to the ISP1507 FAULT input pin. The ISP1507 will inform the link of VBUS fault events by sending RXCMDs on the ULPI bus. To use the FAULT pin, the link must: • Set the USE_EXT_VBUS_IND register bit to logic 1. • Set the polarity of the external fault signal using the IND_COMPL register bit. • Set the IND_PASSTHRU register bit to logic 1. If the FAULT pin is not used, it is recommended to connect to GND. 7.9.6 ID For OTG implementations, the ID (identification) pin is connected to the ID pin of the micro-USB receptacle. As defined in On-The-Go Supplement to the USB 2.0 Specification Rev. 1.3, the ID pin dictates the initial role of the link. If ID is detected as HIGH, the link must assume the role of a peripheral. If ID is detected as LOW, the link must assume a host role. Roles can be swapped at a later time by using HNP. If the ISP1507 is not used as an OTG PHY, but as a standard USB host or peripheral PHY, the ID pin must be connected to REG3V3. 7.9.7 CPGND CPGND indicates the analog ground for the on-board charge pump. CPGND must always be connected to ground, even when the charge pump is not used. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 12 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 7.9.8 C_A and C_B The C_A and C_B pins are to connect the flying capacitor of the charge pump. The output current capability of the charge pump depends on the value of the capacitor used, as shown in Table 3. For maximum efficiency, place capacitors as close as possible to pins. For details, see Section 16. If the charge pump is not used, C_A and C_B must be left floating (not connected). C_A Ccp(C_A)-(C_B) C_B ISP1507 VBUS IL 004aab038 Fig 4. Table 3. Charge pump capacitor Recommended charge pump capacitor value Ccp(C_A)-(C_B) IL (max) 22 nF 8 mA 270 nF 50 mA 7.9.9 VCC VCC is the main input supply voltage for the ISP1507. Decoupling capacitors are recommended. For details, see Section 16. 7.9.10 PSW_N PSW_N is an active LOW, open-drain output pin. This pin can be connected to an active LOW, external VBUS switch or charge pump enable circuit to control the external VBUS power source. An external pull-up resistor, Rpullup, is required when PSW_N is used. This pin is open-drain, allowing ganged-mode power control for multiple USB ports. For application details, see Section 16. If the link is in host mode, it can enable the external VBUS power source by setting the DRV_VBUS_EXT bit in the OTG_CTRL register (see Section 10.1.4) to logic 1. The ISP1507 will drive PSW_N to LOW to enable the external VBUS power source. If the link detects an overcurrent condition (the VBUS state in RXCMD is not 11b), it must disable the external VBUS power source by setting DRV_VBUS_EXT to logic 0. 7.9.11 VBUS This pin acts as an input to VBUS comparators, and also as a power pin for the charge pump, and SRP charge and discharge resistors. When the DRV_VBUS bit in the OTG_CTRL register (see Section 10.1.4) is set to logic 1, the ISP1507 drives VBUS to a voltage of 4.4 V to 5.25 V, with a minimum output current capability of 8 mA. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 13 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver The VBUS pin requires a capacitive load as shown in Section 16. To prevent electrical overstress, it is strongly recommended that you attach a series resistor on the VBUS pin (RVBUS). RVBUS must not be attached when using the ISP1507 internal charge pump. For details, see Section 16. 7.9.12 REG3V3 and REG1V8 Regulator output voltage. These supplies are used to power the ISP1507 internal digital and analog circuits, and must not be used to power external circuits. For correct operation of the regulator, it is recommended that you connect REG3V3 and REG1V8 to decoupling capacitors. For examples, see Section 16. 7.9.13 XTAL1 and XTAL2 XTAL1 is the crystal input, and XTAL2 is the crystal output. The allowed frequency on the XTAL1 pin depends on the ISP1507 product version. If the link requires a 60 MHz clock from the ISP1507, then either a crystal must be attached, or a clock of the same frequency must be driven into XTAL1, with XTAL2 left floating. If a crystal is attached, it requires external load capacitors to GND on each terminal of the crystal. For details, see Section 16. If at any time the system wants to stop the clock on XTAL1, the link must first put the ISP1507 into low-power mode. The clock on XTAL1 must be restarted before low-power mode is exited. 7.9.14 RESET_N An active LOW asynchronous reset pin that resets all circuits in the ISP1507. The ISP1507 contains an internal power-on reset circuit, and therefore using the RESET_N pin is optional. If RESET_N is not used, it must be connected to VCC(I/O). For details on using RESET_N, see Section 9.3.2. 7.9.15 DIR ULPI direction output pin. Controls the direction of the data bus. By default, the ISP1507 holds DIR at LOW, causing the data bus to be an input. When DIR is LOW, the ISP1507 listens for data from the link. The ISP1507 pulls DIR to HIGH only when it has data to send to the link, which is for one of two reasons: • To send USB receive data, RXCMD status updates and register read data to the link. • To block the link from driving the data bus during power-up, reset and low-power (suspend) mode. The DIR pin can also be 3-stated by driving CHIP_SELECT_N to HIGH. For details on DIR usage, refer to UTMI+ Low Pin Interface (ULPI) Specification Rev. 1.1. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 14 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 7.9.16 STP ULPI stop input pin. The link must assert STP to signal the end of a USB transmit packet or a register write operation. When DIR is asserted, the link can optionally assert STP to abort the ISP1507, causing it to deassert DIR in the next clock cycle. A weak pull-up resistor is incorporated into the STP pin as part of the interface protect feature. For details, see Section 9.3.1. The STP input will be ignored when CHIP_SELECT_N is driven to HIGH. For details on STP usage, refer to UTMI+ Low Pin Interface (ULPI) Specification Rev. 1.1. 7.9.17 NXT ULPI next data output pin. The ISP1507 holds NXT at LOW, by default. When DIR is LOW and the link is sending data to the ISP1507, NXT will be asserted to notify the link to provide the next data byte. When DIR is at HIGH and the ISP1507 is sending data to the link, NXT will be asserted to notify the link that another valid byte is on the bus. NXT is not used for register read data or the RXCMD status update. The NXT pin can also be 3-stated by driving CHIP_SELECT_N to HIGH. For details on NXT usage, refer to UTMI+ Low Pin Interface (ULPI) Specification Rev. 1.1. 7.9.18 CLOCK A 60 MHz interface clock to synchronize the ULPI bus. The ISP1507 provides two clocking options: • A crystal attached between the XTAL1 and XTAL2 pins. • A clock driven into the XTAL1 pin, with the XTAL2 pin left floating. For details on CLOCK usage, refer to UTMI+ Low Pin Interface (ULPI) Specification Rev. 1.1. 7.9.19 CHIP_SELECT_N Active LOW chip select pin. If CHIP_SELECT_N is not used, it must be connected to GND. For more information on using CHIP_SELECT_N, see Section 9.3.3. 7.9.20 GND (die pad) Global ground signal, except for the charge pump that uses CPGND. The die pad is exposed on the underside of the package as a ground plate. This acts as a ground to all circuits in the ISP1507, except the charge pump. To ensure correct operation of the ISP1507, GND must be soldered to the cleanest ground available. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 15 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 8. Modes of operation 8.1 ULPI modes The ISP1507 ULPI bus can be programmed to operate in four modes. Each mode reconfigures the signals on the data bus as described in the following subsections. Setting more than one mode will lead to undefined behavior. 8.1.1 Synchronous mode This is default mode. At power-up, and when CLOCK is stable, the ISP1507 will enter synchronous mode. The link must synchronize all ULPI signals to CLOCK, meeting the set-up time and the hold time as defined in Section 15. A description of the ULPI pin behavior in synchronous mode is given in Table 4. This mode is used by the link to perform the following tasks: • • • • High-speed detection handshake (chirp) Transmit and receive USB packets Read and write to registers Receive USB status updates (RXCMDs) For more information on various synchronous mode protocols, see Section 9. Table 4. ULPI signal description Signal name Direction on ISP1507 Signal description CLOCK O 60 MHz interface clock. If a crystal is attached or a clock is driven into the XTAL1 pin, the ISP1507 will drive a 60 MHz output clock. DATA[7:0] I/O 8-bit data bus. In synchronous mode, the link drives DATA[7:0] to LOW by default. The link initiates transfers by sending a nonzero data pattern called TXCMD (transmit command). In synchronous mode, the direction of DATA[7:0] is controlled by DIR. Contents of DATA[7:0] lines must be ignored for exactly one clock cycle whenever DIR changes value. This is called the turnaround cycle. Data lines have fixed direction and different meaning in low-power and serial modes. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 16 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver Table 4. ULPI signal description …continued Signal name Direction on ISP1507 Signal description DIR O Direction: Controls the direction of data bus DATA[7:0]. In synchronous mode, the ISP1507 drives DIR to LOW by default, making the data bus an input so that the ISP1507 can listen for TXCMDs from the link. The ISP1507 drives DIR to HIGH only when it has data for the link. When DIR and NXT are HIGH, the byte on the data bus contains decoded USB data. When DIR is HIGH and NXT is LOW, the byte contains status information called RXCMD (receive command). The only exception to this rule is when the PHY returns register read data, where NXT is also LOW, replacing the usual RXCMD byte. Every change in DIR causes a turnaround cycle on the data bus, during which DATA[7:0] is not valid and must be ignored by the link. DIR is always asserted during low-power and serial modes. STP I Stop: In synchronous mode, the link drives STP to HIGH for one cycle after the last byte of data is sent to the ISP1507. The link can optionally assert STP to force DIR to be deasserted. In low-power and serial modes, the link holds STP at HIGH to wake up the ISP1507, causing the ULPI bus to return to synchronous mode. NXT O Next: In synchronous mode, the ISP1507 drives NXT to HIGH to throttle data. If DIR is LOW, the ISP1507 asserts NXT to notify the link to place the next data byte on DATA[7:0] in the following clock cycle. If DIR is HIGH, the ISP1507 asserts NXT to notify the link that a valid USB data byte is on DATA[7:0] in the current cycle. The ISP1507 always drives an RXCMD when DIR is HIGH and NXT is LOW, unless register read data is to be returned to the link in the current cycle. NXT is not used in low-power or serial mode. 8.1.2 Low-power mode When the USB is idle, the link can place the ISP1507 into low-power mode (also called suspend mode). In low-power mode, the data bus definition changes to that shown in Table 5. To enter low-power mode, the link sets the SUSPENDM bit in the FUNC_CTRL register (see Section 10.1.2) to logic 0. To exit low-power mode, the link asserts the STP signal. The ISP1507 will draw only suspend current from the VCC supply (see Table 46). During low-power mode, the clock on XTAL1 may be stopped. The clock must be started again before asserting STP to exit low-power mode. After exiting low-power mode, the ISP1507 will send an RXCMD to the link if a change was detected in any interrupt source, and the change still exists. An RXCMD may not be sent if the interrupt condition is removed before exiting. For more information on low-power mode enter and exit protocols, refer to UTMI+ Low Pin Interface (ULPI) Specification Rev. 1.1. Table 5. Signal mapping during low-power mode Signal Maps to Direction Description LINESTATE0 DATA0 O combinatorial LINESTATE0 directly driven by analog receiver LINESTATE1 DATA1 O combinatorial LINESTATE1 directly driven by analog receiver CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 17 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver Table 5. Signal mapping during low-power mode …continued Signal Maps to Direction Description Reserved DATA2 O reserved; the ISP1507 will drive this pin to LOW INT DATA3 O active HIGH interrupt indication; will be asserted whenever any unmasked interrupt occurs Reserved DATA[7:4] O reserved; the ISP1507 will drive these pins to LOW 8.1.3 6-pin full-speed or low-speed serial mode If the link requires a 6-pin serial interface to transmit and receive full-speed or low-speed USB data, it can set the ISP1507 to 6-pin serial mode. In 6-pin serial mode, the DATA[7:0] bus definition changes to that shown in Table 6. To enter 6-pin serial mode, the link sets the 6PIN_FSLS_SERIAL bit in the INTF_CTRL register (see Section 10.1.3) to logic 1. To exit 6-pin serial mode, the link asserts STP. This is provided primarily for links that contain legacy full-speed or low-speed functionality, providing a more cost-effective upgrade path to high-speed. An interrupt pin is also provided to inform the link of USB events. If the link requires CLOCK to be running during 6-pin serial mode, the CLOCK_SUSPENDM register bit must be set to logic 1. For more information on 6-pin serial mode enter and exit protocols, refer to UTMI+ Low Pin Interface (ULPI) Specification Rev. 1.1. Table 6. Signal mapping for 6-pin serial mode Signal Maps to Direction Description TX_ENABLE DATA0 I active HIGH transmit enable TX_DAT DATA1 I transmit differential data on DP and DM TX_SE0 DATA2 I transmit single-ended zero on DP and DM INT DATA3 O active HIGH interrupt indication; will be asserted whenever any unmasked interrupt occurs RX_DP DATA4 O single-ended receive data from DP RX_DM DATA5 O single-ended receive data from DM RX_RCV DATA6 O differential receive data from DP and DM Reserved DATA7 O reserved; the ISP1507 will drive this pin to LOW 8.1.4 3-pin full-speed or low-speed serial mode If the link requires a 3-pin serial interface to transmit and receive full-speed or low-speed USB data, it can set the ISP1507 to 3-pin serial mode. In 3-pin serial mode, the data bus definition changes to that shown in Table 7. To enter 3-pin serial mode, the link sets the 3PIN_FSLS_SERIAL bit in the INTF_CTRL register (see Section 10.1.3) to logic 1. To exit 3-pin serial mode, the link asserts STP. This is primarily provided for links that contain legacy full-speed or low-speed functionality, providing a more cost-effective upgrade path to high-speed. An interrupt pin is also provided to inform the link of USB events. If the link requires CLOCK to be running during 3-pin serial mode, the CLOCK_SUSPENDM register bit must be set to logic 1. For more information on 3-pin serial mode enter and exit protocols, refer to UTMI+ Low Pin Interface (ULPI) Specification Rev. 1.1. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 18 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver Table 7. Signal mapping for 3-pin serial mode Signal Maps to Direction Description TX_ENABLE DATA0 I active HIGH transmit enable DAT DATA1 I/O transmit differential data on DP and DM when TX_ENABLE is HIGH receive differential data from DP and DM when TX_ENABLE is LOW SE0 DATA2 I/O transmit single-ended zero on DP and DM when TX_ENABLE is HIGH receive single-ended zero from DP and DM when TX_ENABLE is LOW INT DATA3 O active HIGH interrupt indication; will be asserted whenever any unmasked interrupt occurs Reserved DATA[7:4] O reserved; the ISP1507 will drive these pins to LOW 8.2 USB and OTG state transitions A Hi-Speed USB peripheral, host or OTG device handles more than one electrical state as defined in Universal Serial Bus Specification Rev. 2.0 and On-The-Go Supplement to the USB 2.0 Specification Rev. 1.3. The ISP1507 accommodates various states through register bit settings of XCVRSELECT[1:0], TERMSELECT, OPMODE[1:0], DP_PULLDOWN and DM_PULLDOWN. Table 8 summarizes operating states. The values of register settings in Table 8 will force resistor settings as also given in Table 8. Resistor setting signals are defined as follows: • • • • RPU_DP_EN enables the 1.5 kΩ pull-up resistor on DP RPD_DP_EN enables the 15 kΩ pull-down resistor on DP RPD_DM_EN enables the 15 kΩ pull-down resistor on DM HSTERM_EN enables the 45 Ω termination resistors on DP and DM It is up to the link to set the desired register settings. Table 8. Operating states and their corresponding resistor settings Signaling mode Register settings Internal resistor settings XCVR SELECT [1:0] TERM SELECT OPMODE [1:0] DP_PULL DOWN DM_PULL RPU_ DOWN DP_EN RPD_ DP_EN RPD_ HSTERM DM_EN _EN 3-state drivers XXb Xb 01b Xb Xb 0b 0b 0b 0b Power-up or VBUS < VB_SESS_END 01b 0b 00b 1b 1b 0b 1b 1b 0b 00b 0b 10b 1b 1b 0b 1b 1b 1b Host high-speed 00b 0b 00b 1b 1b 0b 1b 1b 1b Host full-speed X1b 1b 00b 1b 1b 0b 1b 1b 0b Host high-speed or full-speed suspend 01b 1b 00b 1b 1b 0b 1b 1b 0b Host high-speed or full-speed resume 01b 1b 10b 1b 1b 0b 1b 1b 0b Host low-speed 10b 1b 00b 1b 1b 0b 1b 1b 0b General settings Host settings Host chirp CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 19 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver Table 8. Operating states and their corresponding resistor settings …continued Signaling mode Register settings Internal resistor settings XCVR SELECT [1:0] TERM SELECT OPMODE [1:0] DP_PULL DOWN DM_PULL RPU_ DOWN DP_EN RPD_ DP_EN RPD_ HSTERM DM_EN _EN Host low-speed suspend 10b 1b 00b 1b 1b 0b 1b 1b 0b Host low-speed resume 10b 1b 10b 1b 1b 0b 1b 1b 0b Host Test J or Test K 00b 0b 10b 1b 1b 0b 1b 1b 1b Peripheral settings Peripheral chirp 00b 1b 10b 0b 0b 1b 0b 0b 0b Peripheral high-speed 00b 0b 00b 0b 0b 0b 0b 0b 1b Peripheral full-speed 01b 1b 00b 0b 0b 1b 0b 0b 0b Peripheral high-speed or full-speed suspend 01b 1b 00b 0b 0b 1b 0b 0b 0b Peripheral high-speed or full-speed resume 01b 1b 10b 0b 0b 1b 0b 0b 0b Peripheral Test J or Test K 00b 0b 10b 0b 0b 0b 0b 0b 1b OTG device peripheral chirp 00b 1b 10b 0b 1b 1b 0b 1b 0b OTG device peripheral high-speed 00b 0b 00b 0b 1b 0b 0b 1b 1b OTG device 01b peripheral full-speed 1b 00b 0b 1b 1b 0b 1b 0b OTG device peripheral high-speed and full-speed suspend 01b 1b 00b 0b 1b 1b 0b 1b 0b OTG device peripheral high-speed and full-speed resume 01b 1b 10b 0b 1b 1b 0b 1b 0b OTG device peripheral Test J or Test K 00b 0b 10b 0b 1b 0b 0b 1b 1b OTG settings CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 20 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 9. Protocol description The following subsections describe the protocol for using the ISP1507. 9.1 ULPI references The ISP1507 provides a 12-pin ULPI interface to communicate with the link. It is highly recommended that you read UTMI+ Low Pin Interface (ULPI) Specification Rev. 1.1 and UTMI+ Specification Rev. 1.0. 9.2 Power-On Reset (POR) An internal POR is generated when REG1V8 rises above VPOR(trip), for at least tw(REG1V8_H). The internal POR pulse will also be generated whenever REG1V8 drops below VPOR(trip) for more than tw(REG1V8_L), and then rises above VPOR(trip) again. The voltage on REG1V8 is generated from VCC. To give a better view of the functionality, Figure 5 shows a possible curve of REG1V8. The internal POR starts with logic 0 at t0. At t1, the detector will see the passing of the trip level so that POR turns to logic 1 and a delay element will add another tPORP before it drops to logic 0. If REG1V8 dips from t2 to t3 for > tw(REG1V8_L), another POR pulse is generated. If the dip at t4 to t5 is too short, that is, < tw(REG1V8_L), the internal POR pulse will not react and will remain LOW. REG1V8 VPOR(trip) t0 t1 t2 t3 tPORP tPORP t4 t5 POR 004aaa751 Fig 5. Internal power-on reset timing 9.3 Power-up, reset and bus idle sequence Figure 6 shows a typical start-up sequence. On power-up, the ISP1507 performs an internal power-on reset and asserts DIR to indicate to the link that the ULPI bus cannot be used. When the internal PLL is stable, the ISP1507 deasserts DIR. The power-up time depends on the VCC supply rise time, the crystal start-up time, and PLL start-up time tstartup(o)(CLOCK). Whenever DIR is asserted, the ISP1507 drives the NXT pin to LOW and drives DATA[7:0] with RXCMD values. When DIR is deasserted, the link must drive the data bus to a valid level. By default, the link must drive data to LOW. When the ISP1507 initially deasserts DIR on power-up, the link must ignore all RXCMDs until it resets the ISP1507. Before beginning USB packets, the link must set the RESET bit in the FUNC_CTRL register (see Section 10.1.2) to reset the ISP1507. After the RESET bit is set, the ISP1507 will assert DIR until the internal reset completes. The ISP1507 will automatically deassert DIR and clear the RESET bit when reset has completed. After every reset, an RXCMD is sent to the link to update USB status information. After this sequence, the ULPI bus is ready for use and the link can start USB operations. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 21 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver If a crystal is attached or a clock is driven into the XTAL1 pin, the ISP1507 will drive a 60 MHz clock out from the CLOCK pin when DIR deasserts. This is shown as CLOCK in Figure 6. The recommended power-up sequence for the link is as follows: 1. The link waits for tREGUP, ignoring all the ULPI pin status. 2. The link may start to detect DIR status level. If DIR is detected as LOW for three clock cycles, the link may send a RESET command. The ULPI interface is ready for use. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 22 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver VCC VCC(I/O) REG1V8 tREGUP internal REG1V8 detector internal POR XTAL1 bus idle internal clocks stable tstartup(PLL) CLOCK RESET command DATA[7:0] TXCMD D internal reset RXCMD update DIR STP NXT t1 t2 t3 t4 t5 t6 004aaa885 t1 = VCC and VCC(I/O) are applied to the ISP1507. The ISP1507 regulator starts to turn on. t2 = ULPI pads detect REG1V8 rising above the REG1V8 regulator threshold and are not in 3-state. These pads may drive either LOW or HIGH. It is recommended that the link ignores the ULPI pins status during tREGUP. t3 = The POR threshold is reached and a POR pulse is generated. After the POR pulse, ULPI pins are driven to a defined level. DIR is driven to HIGH and the other pins are driven to LOW. t4 = The ISP1507 regulator is powered up and is stable. t5 = The internal PLL is stabilized after tstartup(PLL). If the 19.2 MHz or 26 MHz clock is started before POR, the internal PLL will be stabilized after tstartup(PLL) from POR. The CLOCK pin starts to output 60 MHz. The DIR pin will transition from HIGH to LOW. The DIR pin will remain LOW before the link issues a RESET command to the ISP1507. t6 = The power-up sequence is completed and the ULPI bus interface is ready for use. Fig 6. Power-up and reset sequence required before the ULPI bus is ready for use 9.3.1 Interface protection By default, the ISP1507 enables a weak pull-up resistor on STP. If the STP pin is unexpectedly HIGH at any time, the ISP1507 will protect the ULPI interface by enabling weak pull-down resistors on DATA[7:0]. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 23 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver The interface protect feature prevents unwanted activity of the ISP1507 whenever the ULPI interface is not correctly driven by the link. For example, when the link powers up more slowly than the ISP1507. The interface protect feature can be disabled by setting the INTF_PROT_DIS bit to logic 1. 9.3.2 Interface behavior with respect to RESET_N The use of the RESET_N pin is optional. When RESET_N is asserted (LOW), the ISP1507 will assert DIR. All logic in the ISP1507 will be reset, including the analog circuitry and ULPI registers. During reset, the link must drive DATA[7:0] and STP to LOW; otherwise undefined behavior may result. When RESET_N is deasserted (HIGH), the DIR output will deassert (LOW) four or five clock cycles later. Figure 7 shows the ULPI interface behavior when RESET_N is asserted (LOW), and subsequently deasserted (HIGH). The behavior of Figure 7 applies only when CHIP_SELECT_N is asserted (LOW). If RESET_N is not used, it must be connected to VCC(I/O). CLOCK RESET_N DATA[7:0] Hi-Z (input) Hi-Z (link must drive) Hi-Z (input) Hi-Z (link must drive) Hi-Z (input) DIR STP Hi-Z (input) NXT 004aaa720 Fig 7. Interface behavior with respect to RESET_N 9.3.3 Interface behavior with respect to CHIP_SELECT_N At any time that CHIP_SELECT_N is HIGH, the ISP1507 will 3-state DATA[7:0], NXT and DIR. STP input will be ignored. The link can reuse these pins for other purposes. When CHIP_SELECT_N is LOW, ULPI output pins operate normally. During normal operation, the PLL is always powered, regardless of the level of CHIP_SELECT_N. During power-up, if CHIP_SELECT_N is HIGH, the PLL is not powered up to reduce power consumption. During power-up, if CHIP_SELECT_N is LOW, the PLL is powered and the ISP1507 operates normally. If CHIP_SELECT_N is HIGH: • The DATA[7:0], NXT and DIR pins are 3-stated and ignored. • If the ISP1507 was previously in synchronous mode, the STP pin is ignored. If the ISP1507 was previously in serial or suspend mode, STP is used to exit. • The pull-down resistors on DATA[7:0] are disabled. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 24 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver • The ULPI controller is forced into an idle state and any ULPI command is ignored. entering 3-state mode exiting 3-state mode CLOCK CHIP_ SELECT_N 3-stated pins DATA[7:0] DIR NXT input ignored STP 004aaa690 Fig 8. Entering and exiting 3-state in normal mode entering 3-state mode exiting 3-state mode CLOCK CHIP_ SELECT_N 3-stated pins DATA[7:0] TXCMD DATA DIR NXT input ignored STP exiting suspend mode entering suspend mode SUSPENDM 004aaa691 Remark: Clock timing is not to scale. Fig 9. Entering and exiting 3-state in suspend mode CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 25 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 9.4 VBUS power and fault detection 9.4.1 Driving 5 V on VBUS The ISP1507 provides a built-in charge pump. To enable the charge pump, the link must set the DRV_VBUS bit in the OTG_CTRL register (see Section 10.1.4). The ISP1507 also supports external 5 V supplies. The ISP1507 can control the external supply using the active-LOW PSW_N open-drain output pin. To enable the external supply by driving PSW_N to LOW, the link must set the DRV_VBUS_EXT bit in the OTG_CTRL register to logic 1. The link can optionally set both the DRV_VBUS and DRV_VBUS_EXT bits to logic 1 to enable the external supply. Table 9 summarizes settings to drive 5 V on VBUS. Table 9. OTG_CTRL register power control bits DRV_VBUS DRV_VBUS_EXT Power source used 0 0 internal and external VBUS power sources are disabled 1 0 internal VBUS charge pump is enabled X 1 external 5 V VBUS supply is enabled 9.4.2 Fault detection The ISP1507 supports external VBUS fault detector circuits that output a digital fault indicator signal. The indicator signal must be connected to the FAULT pin. To enable the ISP1507 to monitor the digital fault input, the link must set the USE_EXT_VBUS_IND bit in the OTG_CTRL register (see Section 10.1.4) and the IND_PASSTHRU bit in the INTF_CTRL register (see Section 10.1.3) to logic 1. For details, see Figure 11. The FAULT input pin is mapped to the A_VBUS_VLD bit in RXCMD. Any changes for the FAULT input will trigger RXCMD carrying the FAULT condition with A_VBUS_VLD. 9.5 TXCMD and RXCMD Commands between the ISP1507 and the link are described in the following subsections. 9.5.1 TXCMD By default, the link must drive the ULPI bus to its idle state of 00h. To send commands and USB packets, the link drives a nonzero value on DATA[7:0] to the ISP1507 by sending a byte called TXCMD. Commands include USB packet transmissions, and register reads and writes. Once the TXCMD is interpreted and accepted by the ISP1507, the NXT signal is asserted and the link can follow up with the required number of data bytes. The TXCMD byte format is given in Table 10. Any values other than those in Table 10 are illegal and may result in undefined behavior. Various TXCMD packet and register sequences are shown in later sections. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 26 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver Table 10. TXCMD byte format Command type name Command code Command payload DATA[7:6] DATA[5:0] Command name Command description Idle 00b 00 0000b NOOP No operation. 00h is the idle value of the data bus. The link must drive NOOP by default. Packet transmit 01b 00 0000b NOPID Transmit USB data that does not have a PID, such as chirp and resume signaling. The ISP1507 starts transmitting only after accepting the next data byte. 00 XXXXb PID Transmit USB packet. DATA[3:0] indicates USB packet identifier PID[3:0]. 10 1111b EXTW Extended register write command (optional). The 8-bit address must be provided after the command is accepted. XX XXXXb REGW Register write command with 6-bit immediate address. 10 1111b EXTR Extended register read command (optional). The 8-bit address must be provided after the command is accepted. XX XXXXb REGR Register read command with 6-bit immediate address. Register write 10b Register read 11b 9.5.2 RXCMD The ISP1507 communicates status information to the link by asserting DIR and sending an RXCMD byte on the data bus. The RXCMD data byte format is given in Table 11. The ISP1507 will automatically send an RXCMD whenever there is a change in any of the RXCMD data fields. The link must be able to accept an RXCMD at any time; including single RXCMDs, back-to-back RXCMDs, and RXCMDs at any time during USB receive packets when NXT is LOW. An example is shown in Figure 10. For details and diagrams, refer to UTMI+ Low Pin Interface (ULPI) Specification Rev. 1.1. An RXCMD may not be sent when exiting low-power mode or serial mode, if the interrupt condition is removed before exiting. Table 11. RXCMD byte format DATA Name Description and value 1 to 0 LINESTATE LINESTATE signals: For a definition of LINESTATE, see Section 9.5.2.1. DATA0 — LINESTATE[0] DATA1 — LINESTATE[1] 3 to 2 VBUS state Encoded VBUS voltage state: For an explanation of the VBUS state, see Section 9.5.2.2. 5 to 4 RxEvent Encoded USB event signals: For an explanation of RxEvent, see Section 9.5.2.4. 6 ID Set to the value of the ID pin. 7 ALT_INT By default, this signal is not used and is not needed in typical designs. Optionally, the link can enable the BVALID_RISE and/or BVALID_FALL bits in the PWR_CTRL register (see Section 10.1.14). Corresponding changes in BVALID will cause an RXCMD to be sent to the link with the ALT_INT bit asserted. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 27 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver CLOCK Single RXCMD turnaround DATA[ 7:0] Back-to-back RXCMDs turnaround RXCMD turnaround RXCMD RXCMD turnaround DIR STP NXT 004aaa695 Fig 10. Single and back-to-back RXCMDs from the ISP1507 to the link 9.5.2.1 Linestate encoding LINESTATE[1:0] reflects the current state of DP and DM. Whenever the ISP1507 detects a change in DP or DM, an RXCMD will be sent to the link with the new LINESTATE[1:0] value. The value given on LINESTATE[1:0] depends on the setting of various registers. Table 12 shows the LINESTATE[1:0] encoding for upstream facing ports, which applies to peripherals. Table 13 shows the LINESTATE[1:0] encoding for downstream facing ports, which applies to host controllers. Dual-role devices must choose the correct table, depending on whether it is in peripheral or host mode. Table 12. LINESTATE[1:0] encoding for upstream facing ports: peripheral DP_PULLDOWN = 0.[1] Mode Full-speed High-speed Chirp XCVRSELECT[1:0] 01, 11 00 00 TERMSELECT 1 0 1 00 SE0 squelch squelch 01 FS-J !squelch !squelch and HS_Differential_Receiver_Output 10 FS-K invalid !squelch and !HS_Differential_Receiver_Output 11 SE1 invalid invalid LINESTATE[1:0] [1] !squelch indicates inactive squelch. !HS_Differential_Receiver_Output indicates inactive HS_Differential_Receiver_Output. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 28 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver Table 13. LINESTATE[1:0] encoding for downstream facing ports: host DP_PULLDOWN and DM_PULLDOWN = 1.[1] Mode Low-speed Full-speed XCVRSELECT[1:0] 10 TERMSELECT 1 OPMODE[1:0] LINESTATE[1:0] [1] 00 High-speed Chirp 01, 11 00 00 1 0 0 X X 00, 01 or 11 10 SE0 SE0 squelch squelch 01 LS-K FS-J !squelch !squelch and HS_Differential_Receiver_Output 10 LS-J FS-K invalid !squelch and !HS_Differential_Receiver_Output 11 SE1 SE1 invalid invalid !squelch indicates inactive squelch. !HS_Differential_Receiver_Output indicates inactive HS_Differential_Receiver_Output. 9.5.2.2 VBUS state encoding USB devices must monitor the VBUS voltage for purposes such as overcurrent detection, starting a session and SRP. The VBUS state field in the RXCMD is an encoding of the voltage level on VBUS. The SESS_END and SESS_VLD indicators in the VBUS state are directly taken from internal comparators built-in to the ISP1507, and encoded as shown in Table 11 and Table 14. Table 14. Encoded VBUS voltage state Value VBUS voltage SESS_END SESS_VLD A_VBUS_VLD 00 VBUS < VB_SESS_END 1 0 0 01 VB_SESS_END ≤ VBUS < VB_SESS_VLD 0 0 0 10 VB_SESS_VLD ≤ VBUS < VA_VBUS_VLD X 1 0 11 VBUS ≥ VA_VBUS_VLD X X 1 The A_VBUS_VLD indicator in the VBUS state provides several options and must be configured based on current draw requirements. A_VBUS_VLD can input from one or more VBUS voltage indicators, as shown in Figure 11. A description on how to use and select the VBUS state encoding is given in Section 9.5.2.3. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 29 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver A_VBUS_VLD comparator internal A_VBUS_VLD VBUS (0, X) (1, 0) FAULT complement output FAULT indicator RXCMD A_VBUS_VLD (1, 1) IND_COMPL USE_EXT_VBUS_IND, IND_PASSTHRU 004aaa698 Fig 11. RXCMD A_VBUS_VLD indicator source 9.5.2.3 Using and selecting the VBUS state encoding The VBUS state encoding is shown in Table 11. The ISP1507 will send an RXCMD to the link whenever there is a change in the VBUS state. To receive VBUS state updates, the link must first enable the corresponding interrupts in the USB_INTR_EN_R_E and USB_INTR_EN_F_E registers. The link can use the VBUS state to monitor VBUS and take appropriate action. Table 15 shows the recommended usage for typical applications. Table 15. VBUS indicators in RXCMD required for typical applications Application A_VBUS_VLD SESS_VLD SESS_END Standard host yes no no Standard peripheral no yes no OTG A-device yes yes no OTG B-device no yes yes Standard USB host controllers: For standard hosts, the system must be able to provide 500 mA on VBUS in the range of 4.75 V to 5.25 V. An external circuit must be used to detect overcurrent conditions. If the external overcurrent detector provides a digital fault signal, then the fault signal must be connected to the ISP1507 FAULT input pin, and the link must do the following: 1. Set the IND_COMPL bit in the INTF_CTRL register (see Section 10.1.3) to logic 0 or logic 1, depending on the polarity of the external fault signal. 2. Set the USE_EXT_VBUS_IND bit in the OTG_CTRL register (see Section 10.1.4) to logic 1. 3. If it is not necessary to qualify the fault indicator with the internal A_VBUS_VLD comparator, set the IND_PASSTHRU bit in the INTF_CTRL register to logic 1. Standard USB peripheral controllers: Standard peripherals must be able to detect when VBUS is at a sufficient level for operation. SESS_VLD must be enabled to detect the start and end of USB peripheral operations. Detection of A_VBUS_VLD and SESS_END thresholds is not needed for standard peripherals. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 30 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver OTG devices: When an OTG device is configured as an OTG A-device, it must be able to provide a minimum of 8 mA on VBUS. If the OTG A-device provides less than 100 mA, then there is no need for an overcurrent detection circuit because the internal A_VBUS_VLD comparator is sufficient. If the OTG A-device provides more than 100 mA on VBUS, an overcurrent detector must be used and Section “Standard USB host controllers” applies. The OTG A-device also uses SESS_VLD to detect when an OTG B-device is initiating VBUS pulsing SRP. When an OTG device is configured as an OTG B-device, SESS_VLD must be used to detect when VBUS is at a sufficient level for operation. SESS_END must be used to detect when VBUS has dropped to a LOW level, allowing the B-device to safely initiate VBUS pulsing SRP. 9.5.2.4 RxEvent encoding The RxEvent field (see Table 16) of the RXCMD informs the link of information related packets received on the USB bus. RxActive and RxError are defined in USB 2.0 Transceiver Macrocell Interface (UTMI) Specification Ver. 1.05. HostDisconnect is defined in UTMI+ Specification Rev. 1.0. A short definition is also given in the following subsections. Table 16. Encoded USB event signals Value RxActive RxError HostDisconnect 00 0 0 0 01 1 0 0 11 1 1 0 10 X X 1 RxActive: When the ISP1507 has detected a SYNC pattern on the USB bus, it signals an RxActive event to the link. An RxActive event can be communicated using two methods. The first method is for the ISP1507 to simultaneously assert DIR and NXT. The second method is for the ISP1507 to send an RXCMD to the link with the RxActive field in RxEvent bits set to logic 1. The link must be able to detect both methods. RxActive frames the receive packet from the first byte to the last byte. The link must assume that RxActive is set to logic 0 when indicated in an RXCMD or when DIR is deasserted, whichever occurs first. The link uses RxActive to time high-speed packets and ensure that bus turnaround times are met. For more information on the USB packet timing, see Section 9.8.1. RxError: When the ISP1507 has detected an error while receiving a USB packet, it deasserts NXT and sends an RXCMD with the RxError field set to logic 1. The received packet is no longer valid and must be dropped by the link. HostDisconnect: HostDisconnect is encoded into the RxEvent field of the RXCMD. HostDisconnect is valid only when the ISP1507 is configured as a host (both DP_PULLDOWN and DM_PULLDOWN are set to logic 1), and indicates to the host controller when a peripheral is connected or disconnected. The host controller must enable HostDisconnect by setting the HOST_DISCON_R and HOST_DISCON_F bits in the USB_INTR_EN_R_E and USB_INTR_EN_F_E registers, respectively. Changes in HostDisconnect will cause the PHY to send an RXCMD to the link with the updated value. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 31 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 9.6 Register read and write operations Figure 12 shows register read and write sequences. The ISP1507 supports immediate addressing and extended addressing register operations. Extended register addressing is optional for links. Note that register operations will be aborted if the ISP1507 unexpectedly asserts DIR during the operation. When a register operation is aborted, the link must retry until successful. For more information on register operations, refer to UTMI+ Low Pin Interface (ULPI) Specification Rev. 1.1. CLOCK TXCMD (REGW) D TXCMD (EXTW) AD D TXCMD (REGR) D TXCMD (EXTW) AD D DATA[7:0] immediate register write extended register write immediate register read extended register read DIR STP NXT 004aaa710 AD indicates the address byte, and D indicates the data byte. Fig 12. Example of register write, register read, extended register write and extended register read 9.7 USB reset and high-speed detection handshake (chirp) Figure 13 shows the sequence of events for USB reset and high-speed detection handshake (chirp). The sequence is shown for hosts and peripherals. Figure 13 does not show all RXCMD updates and timing is not to scale. The sequence is as follows: 1. USB reset: The host detects a peripheral attachment as low-speed if DM is HIGH and as full-speed if DP is HIGH. If a host detects a low-speed peripheral, it does not follow the remainder of this protocol. If a host detects a full-speed peripheral, it resets the peripheral by writing to the Function Control register (see Section 10.1.2). XCVRSELECT[1:0] = 00b (high-speed) and TERMSELECT = 0b are then set which drives SE0 on the bus (DP and DM are connected to ground through 45 Ω). The host also sets OPMODE[1:0] = 10b for correct chirp transmit and receive. The start of SE0 is labeled T0. Remark: To receive chirp signaling, the host must also consider the high-speed differential receiver output. The host controller must interpret LINESTATE[1:0] as shown in Table 13. 2. High-speed detection handshake (chirp) a. Peripheral chirp: After detecting SE0 for no less than 2.5 μs, if the peripheral is capable of high-speed, it sets XCVRSELECT[1:0] = 00b (high-speed) and OPMODE[1:0] = 10b (chirp). The peripheral immediately follows this with a TXCMD (NOPID), transmitting a Chirp K for no less than 1 ms and ending no more CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 32 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver than 7 ms after reset time T0. If the peripheral is in low-power mode, it must wake up its clock within 5.6 ms, leaving 200 μs for the link to start transmitting the Chirp K, and 1.2 ms for the Chirp K to complete (worst case with 10 % slow clock). b. Host chirp: If the host does not detect the peripheral chirp, it must continue asserting SE0 until the end of reset. If the host detects the peripheral Chirp K for no less than 2.5 μs, then no more than 100 μs after the bus leaves the Chirp K state, the host sends a TXCMD (NOPID) with an alternating sequence of Chirp Ks and Js. Each Chirp K or Chirp J must last no less than 40 μs and no longer than 60 μs. c. High-speed idle: The peripheral must detect a minimum of Chirp K-J-K-J-K-J. Each Chirp K and Chirp J must be detected for at least 2.5 μs. The peripheral sets TERMSELECT = 0b and OPMODE[1:0] = 00b after seeing the minimum Chirp sequence. The peripheral is now in high-speed mode and sees !squelch (01b on LINESTATE). When the peripheral sees squelch (10b on LINESTATE), it knows that the host has completed chirp and waits for Hi-Speed USB traffic to begin. After transmitting the chirp sequence, the host changes OPMODE[1:0] to 00b and begins sending USB packets. For more information, refer to UTMI+ Low Pin Interface (ULPI) Specification Rev. 1.1. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 33 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver USB reset high-speed detection handshake (chirp) T0 TXCMD (REGW) SE0 K HS idle host chirp peripheral chirp 00 TXCMD NOPID K ... J K J TXCMD (REGW) DATA [ 7:0] DIR ULPI host STP NXT 00 (HS) 01 (FS) XCVR SELECT TERM SELECT 00 (normal) 00 (normal) 01 (chirp) OP MODE SE0 (00b) J (01b) peripheral chirp K (10b) squelch (00b) host chirp K (10b) or chirp J (01b) squelch (00b) LINE STATE TXCMD SE0 (REGW) TXCMD NOPID K RXCMDs K ... K 00 K J K J K TXCMD J (REGW) 00 DATA [ 7:0] DIR ULPI peripheral STP NXT 00 (HS) 01 (FS) XCVR SELECT TERM SELECT 00 (normal) 10 (chirp) 00 (normal) OP MODE J (01b) SE0 (00b) peripheral chirp K (10b) squelch (00b) host chirp K or J (10b or 01b) !squelch (01b) squelch (00b) USB signals LINE STATE DP DM 004aaa711 Timing is not to scale. Fig 13. USB reset and high-speed detection handshake (chirp) sequence CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 34 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 9.8 USB packet transmit and receive An example of a packet transmit and receive is shown in Figure 14. For details on USB packets, refer to UTMI+ Low Pin Interface (ULPI) Specification Rev. 1.1. ISP1507 accepts TXCMD link sends TXCMD link sends the next data; ISP1507 link signals accepts end of data ISP1507 ISP1507 asserts DIR, ISP1507 ISP1507 deasserts sends causing sends DIR, causing ULPI bus turnaround RXCMD USB data turnaround is idle (NXT LOW) (NXT HIGH) cycle cycle CLOCK TXCMD DATA[7:0] DATA turnaround RXCMD DATA turnaround DIR STP NXT 004aab039 Fig 14. Example of using the ISP1507 to transmit and receive USB data 9.8.1 USB packet timing 9.8.1.1 ISP1507 pipeline delays The ISP1507 delays are shown in Table 17. For a detailed description, refer to UTMI+ Low Pin Interface (ULPI) Specification Rev. 1.1, Section 3.8.2.6.2. Table 17. PHY pipeline delays Parameter name[1] High-speed PHY delay Full-speed PHY delay Low-speed PHY delay RXCMD delay (J and K) 4 4 4 RXCMD delay (SE0) 4 4 to 6 16 to 18 TX start delay 1 to 2 6 to 10 74 to 75 TX end delay (packets) 3 to 4 not applicable not applicable TX end delay (SOF) 6 to 9 not applicable not applicable RX start delay 5 to 6 not applicable not applicable RX end delay 5 to 6 17 to 18 122 to 123 [1] According to UTMI+ Low Pin Interface (ULPI) Specification Rev. 1.1, Section 3.8.2.6, the TX and RX start or end delays must be used for high-speed inter-packet timing. If the link uses RXCMDs for high-speed inter-packet timing, the result cannot be guaranteed. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 35 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 9.8.1.2 Allowed link decision time The amount of clock cycles allocated to the link to respond to a received packet and correctly receive back-to-back packets is given in Table 18. Link designs must follow values given in Table 18 for correct USB system operation. Examples of high-speed packet sequences and timing are shown in Figure 15 and Figure 16. For details, refer to UTMI+ Low Pin Interface (ULPI) Specification Rev. 1.1, Section 3.8.2.6.3. Table 18. Link decision times Packet sequence High-speed Full-speed link delay link delay Low-speed Definition link delay Transmit-Transmit 15 to 24 (host only) 77 to 247 7 to 18 Number of clock cycles a host link must wait before driving the TXCMD for the second packet. In high-speed, the link starts counting from the assertion of STP for the first packet. In full-speed, the link starts counting from the RXCMD, indicating LINESTATE has changed from SE0 to J for the first packet. The timing given ensures inter-packet delays of 2 bit times to 6.5 bit times. Receive-Transmit (host or peripheral) 1 to 14 7 to 18 77 to 247 Number of clock cycles the link must wait before driving the TXCMD for the transmit packet. In high-speed, the link starts counting from the end of the receive packet; deassertion of DIR or an RXCMD, indicating RxActive is LOW. In full-speed or low-speed, the link starts counting from the RXCMD, indicating LINESTATE has changed from SE0 to J for the receive packet. The timing given ensures inter-packet delays of 2 bit times to 6.5 bit times. Receive-Receive (peripheral only) 1 1 1 Minimum number of clock cycles between consecutive receive packets. The link must be able to receive both packets. Transmit-Receive (host or peripheral) 92 80 718 Host or peripheral transmits a packet and will time-out after this number of clock cycles if a response is not received. Any subsequent transmission can occur after this time. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 36 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver USB interpacket delay (88 to 192 high-speed bit times) DP or DM IDLE EOP DATA SYNC CLOCK DN−1 DN TXCMD D0 D1 DATA [7:0] DIR STP NXT link decision time (15 to 24 clocks) TX end delay (two to five clocks) TX start delay (one to two clocks) 004aaa712 Fig 15. High-speed transmit-to-transmit packet timing USB interpacket delay (8 to 192 high-speed bit times) DP or DM IDLE EOP DATA SYNC CLOCK DN DN−2 DN−4 TXCMD D0 D1 DATA [7:0] DN−3 DN−1 turnaround DIR STP NXT RX end delay (three to eight clocks) link decision time (1 to 14 clocks) TX start delay (one to two clocks) 004aaa713 Fig 16. High-speed receive-to-transmit packet timing 9.9 Preamble Preamble packets are headers to low-speed packets that must travel over a full-speed bus, between a host and a hub. To enter preamble mode, the link sets XCVRSELECT[1:0] = 11b in the FUNC_CTRL register (see Section 10.1.2). When in CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 37 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver preamble mode, the ISP1507 operates just as in full-speed mode, and sends all data with the full-speed rise time and fall time. Whenever the link transmits a USB packet in preamble mode, the ISP1507 will automatically send a preamble header at full-speed bit rate before sending the link packet at low-speed bit rate. The ISP1507 will ensure a minimum gap of four full-speed bit times between the last bit of the full-speed PRE PID and the first bit of the low-speed packet SYNC. The ISP1507 will drive a J for at least one full-speed bit time after sending the PRE PID, after which the pull-up resistor can hold the J state on the bus. An example transmit packet is shown in Figure 17. In preamble mode, the ISP1507 can also receive low-speed packets from the full-speed bus. CLOCK DATA[7:0] TXCMD (low-speed packet ID) D0 D1 DIR STP NXT DP or DM FS SYNC FS PRE ID IDLE (min 4 FS bits) LS SYNC LS PID LS D0 LS D1 004aaa714 DP and DM timing is not to scale. Fig 17. Preamble sequence 9.10 USB suspend and resume 9.10.1 Full-speed or low-speed host-initiated suspend and resume Figure 18 illustrates how a host or a hub places a full-speed or low-speed peripheral into suspend and sometime later initiates resume signaling to wake up the downstream peripheral. Note that Figure 18 timing is not to scale, and does not show all RXCMD LINESTATE updates. The sequence of events for a host and a peripheral, both with ISP1507, is as follows: 1. Idle: Initially, the host and the peripheral are idle. The host has its 15 kΩ pull-down resistors enabled (DP_PULLDOWN and DM_PULLDOWN are set to 1b) and 45 Ω terminations disabled (TERMSELECT is set to 1b). The peripheral has the 1.5 kΩ pull-up resistor connected to DP for full-speed or DM for low-speed (TERMSELECT is set to 1b). 2. Suspend: When the peripheral sees no bus activity for 3 ms, it enters the suspend state. The peripheral link places the PHY into low-power mode by clearing the SUSPENDM bit in the FUNC_CTRL register (see Section 10.1.2), causing the PHY to draw only suspend current. The host may or may not be powered down. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 38 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 3. Resume K: When the host wants to wake up the peripheral, it sets OPMODE[1:0] to 10b and transmits a K for at least 20 ms. The peripheral link sees the resume K on LINESTATE, and asserts STP to wake up the PHY. 4. EOP: When STP is asserted, the ISP1507 on the host side automatically appends an EOP of two bits of SE0 at low-speed bit rate, followed by one bit of J. The ISP1507 on the host side knows to add the EOP because DP_PULLDOWN and DM_PULLDOWN are set to 1b for a host. After the EOP is completed, the host link sets OPMODE[1:0] to 00b for normal operation. The peripheral link sees the EOP and also resumes normal operation. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 39 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver suspend idle FS or LS host (XCVRSELECT = 01b (FS) or 10b (LS), DP_PULLDOWN = 1b, DM_PULLDOWN = 1b, TERMSELECT = 1b) TXCMD (REGW) EOP resume K TXCMD NOPID K K ... idle TXCMD K DATA [7:0] DIR STP NXT OPMODE 10b 00b LINE STATE K J 00b J SE0 FS or LS peripheral (XCVRSELECT = 01b (FS) or 10b (LS), DP_PULLDOWN = 0b, TERMSELECT = 1b) CLOCK TXCMD (REGW) LINESTATE K SE0 J DIR STP NXT OPMODE 00b 10b 00b SUSPENDM LINE STATE USB signals (only FS is shown) LINESTATE J DATA [7:0] K J SE0 J DP DM 004aab123 Timing is not to scale. Fig 18. Full-speed suspend and resume 9.10.2 High-speed suspend and resume Figure 19 illustrates how a host or a hub places a high-speed enabled peripheral into suspend and then initiates resume signaling. The high-speed peripheral will wake up and return to high-speed operations. Note that Figure 19 timing is not to scale, and does not show all RXCMD LINESTATE updates. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 40 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver The sequence of events related to a host and a peripheral, both with ISP1507, is as follows: 1. High-speed idle: Initially, the host and the peripheral are idle. The host has its 15 kΩ pull-down resistors enabled (DP_PULLDOWN and DM_PULLDOWN are set to 1b) and 45 Ω terminations enabled (TERMSELECT is set to 0b). The peripheral has its 45 Ω terminations enabled (TERMSELECT is set to 0b). 2. Full-speed suspend: When the peripheral sees no bus activity for 3 ms, it enters the suspend state. The peripheral link places the ISP1507 into full-speed mode (XCVRSELECT is set to 01b), removes 45 Ω terminations, and enables the 1.5 kΩ pull-up resistor on DP (TERMSELECT is set to 1b). The peripheral link then places the ISP1507 into low-power mode by clearing SUSPENDM, causing the ISP1507 to draw only suspend current. The host also changes the ISP1507 to full-speed (XCVRSELECT is set to 01b), removes 45 Ω terminations (TERMSELECT is set to 1b), and then may or may not be powered down. 3. Resume K: When the host wants to wake up the peripheral, it sets OPMODE to 10b and transmits a full-speed K for at least 20 ms. The peripheral link sees the resume K (10b) on LINESTATE, and asserts STP to wake up the ISP1507. 4. High-speed traffic: The host link sets high-speed (XCVRSELECT is set to 00b) and enables its 45 Ω terminations (TERMSELECT is set to 0b). The peripheral link sees SE0 on LINESTATE and also sets high-speed (XCVRSELECT is set to 00b), and enables its 45 Ω terminations (TERMSELECT is set to 0b). The host link sets OPMODE to 00b for normal high-speed operation. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 41 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver FS suspend HS idle resume K TXCMD TXCMD (REGW) NOPID K K TXCMD (REGW) HS idle TXCMD ... K (REGW) ULPI HS host (DP_PULLDOWN = 1b, DM_PULLDOWN = 1b) DATA [7:0] DIR STP NXT XCVR SELECT 01b 00b 00b TERM SELECT OP MODE !SQUELCH SQUELCH (00b) (01b) LINE STATE 10b 00b 00b FS K (10b) FS J (01b) SQUELCH (00b) !SQUELCH (01b) CLOCK TXCMD (REGW) TXCMD SE0 (REGW) LINESTATE K LINESTATE J ULPI HS peripheral (DP_PULLDOWN = 0b) DATA [7:0] DIR STP NXT XCVR SELECT 01b 00b 00b TERM SELECT OP MODE 00b 10b 00b SUSPENDM USB signals LINE STATE !SQUELCH SQUELCH (01b) (00b) FS J (01b) FS K (10b) SQUELCH (00b) !SQUELCH (01b) DP DM 004aab124 Timing is not to scale. Fig 19. High-speed suspend and resume CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 42 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 9.10.3 Remote wake-up The ISP1507 supports peripherals that initiate remote wake-up resume. When placed into USB suspend, the peripheral link remembers at what speed it was originally operating. Depending on the original speed, the link follows one of the protocols detailed here. In Figure 20, timing is not to scale, and not all RXCMD LINESTATE updates are shown. The sequence of events related to a host and a peripheral, both with ISP1507, is as follows: 1. Both the host and the peripheral are assumed to be in low-power mode. 2. The peripheral begins remote wake-up by re-enabling its clock and setting its SUSPENDM bit to 1b. 3. The peripheral begins driving K on the bus to signal resume. Note that the peripheral link must assume that LINESTATE is K (01b) while transmitting because it will not receive any RXCMDs. 4. The host recognizes the resume, re-enables its clock and sets its SUSPENDM bit. 5. The host takes over resume driving within 1 ms of detecting the remote wake-up. 6. The peripheral stops driving resume. 7. The peripheral sees the host continuing to drive resume. 8. The host stops driving resume and the ISP1507 automatically adds the EOP to the end of resume. The peripheral recognizes the EOP as the end of resume. 9. Both the host and the peripheral revert to normal operation by writing 00b to OPMODE. If the host or the peripheral was previously in high-speed mode, it must revert to high-speed before the SE0 of the EOP is completed. This can be achieved by writing XCVRSELECT[1:0] = 00b and TERMSELECT = 0b after LINESTATE indicates SE0. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 43 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver TXCMD REGW LINESTATE TXCMD NOPID TXCMD REGW 00h DATA [ 7:0] ULPI host DIR STP NXT XCVR SELECT 00b (HS only) 01b (FS), 10b (LS) TERM SELECT 0b (HS only) OP MODE 00b 10b LINESTATE TXCMD REGW TXCMD NOPID RXCMD 00h RXCMD TXCMD RXCMD REGW DATA [ 7:0] ULPI peripheral DIR STP NXT 00b (HS only) XCVR SELECT 00b (HS), 01b (FS), 10b (LS) TERM SELECT 0b (HS only) OP MODE 10b 00b 004aaa718 Timing is not to scale. Fig 20. Remote wake-up from low-power mode 9.11 No automatic SYNC and EOP generation (optional) This setting allows the link to turn off the automatic SYNC and EOP generation, and must be used for high-speed packets only. It is provided for backward compatibility with legacy controllers that include SYNC and EOP bytes in the data payload when transmitting packets. The ISP1507 will not automatically generate the SYNC and EOP patterns when OPMODE[1:0] is set to 11b. The ISP1507 will still NRZI encode data and perform bit stuffing. An example of a sequence is shown in Figure 21. The link must always send packets using the TXCMD (NOPID) type. The ISP1507 does not provide a mechanism to control bit stuffing in individual bytes, but will automatically turn off bit stuffing for EOP when STP is asserted with data set to FEh. If data is set to 00h when STP is asserted, the CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 44 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver PHY will not transmit any EOP. The ISP1507 will also detect if the PID byte is A5h, indicating an SOF packet, and automatically send a long EOP when STP is asserted. To transmit chirp and resume signaling, the link must set OPMODE to 10b. CLOCK ULPI signals TXCMD 00h 00h 00h 80h PID D1 D2 D3 ... ... D N − 1 DN FEh DATA [7:0] DIR STP USB bus UTMI+ equivalent signals NXT TXVALID TXREADY TXBIT STUFF ENABLE IDLE SYNC PID DATA PAYLOAD EOP IDLE DP, DM 004aab125 Fig 21. Transmitting USB packets without automatic SYNC and EOP generation 9.12 On-The-Go operations On-The-Go (OTG) is a supplement to Universal Serial Bus Specification Rev. 2.0 that allows a portable USB device to assume the role of a limited USB host by defining improvements, such as a small connector and low power. Non-portable devices, such as standard hosts and embedded hosts, can also benefit from OTG features. The ISP1507 OTG PHY is designed to support all the tasks specified in the OTG supplement. The ISP1507 provides the front-end analog support for Host Negotiation Protocol (HNP) and Session Request Protocol (SRP) for dual-role devices. The supporting components include: • Built-in 5 V charge pump • Voltage comparators – A_VBUS_VLD – SESS_VLD (session valid, can be used for both A-session and B-session valid) – SESS_END (session end) • Pull-up and pull-down resistors on DP and DM • ID detector indicates if micro-A or micro-B plug is inserted • Charge and discharge resistors on VBUS The following subsections describe how to use the ISP1507 OTG components. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 45 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 9.12.1 OTG charge pump A description of the charge pump is given in Section 7.6.4. When the controller is configured as an A-device, it can provide the VBUS power by turning on the charge pump. Control of the charge pump is described in Section 9.4.1 and Section 10.1.4. 9.12.2 OTG comparators The ISP1507 provides comparators that conform to On-The-Go Supplement to the USB 2.0 Specification Rev. 1.3 requirements of VA_VBUS_VLD, VA_SESS_VLD, VB_SESS_VLD and VB_SESS_END. In this data sheet, VA_SESS_VLD and VB_SESS_VLD are combined into VB_SESS_VLD. Comparators are described in Section 7.6.2. Changes in comparator values are communicated to the link by RXCMDs as described in Section 9.5.2.2. Control over comparators is described in Section 10.1.5 to Section 10.1.8. 9.12.3 Pull-up and pull-down resistors The USB resistors on DP and DM can be used to initiate data-line pulsing SRP. The link must set the required bus state using mode settings in Table 8. 9.12.4 ID detection The ISP1507 provides an internal pull-up resistor to sense the value of the ID pin. The pull-up resistor must first be enabled by setting the ID_PULLUP register bit to logic 1. If the value on ID has changed, the ISP1507 will send an RXCMD or interrupt to the link by time tID. If the link does not receive any RXCMD or interrupt by tID, then the ID value has not changed. 9.12.5 VBUS charge and discharge resistors A pull-up resistor, RUP(VBUS), is provided to perform VBUS pulsing SRP. A B-device is allowed to charge VBUS above the session valid threshold to request the host to turn on the VBUS power. A pull-down resistor, RDN(VBUS), is provided for a B-device to discharge VBUS. This is done whenever the A-device turns off the VBUS power. The B-device can use the pull-down resistor to ensure VBUS is below VB_SESS_END before starting a session. For details, refer to On-The-Go Supplement to the USB 2.0 Specification Rev. 1.3. 9.13 Serial modes The ISP1507 supports both 6-pin serial mode and 3-pin serial mode, controlled by bits 6PIN_FSLS_SERIAL and 3PIN_FSLS_SERIAL of the INTF_CTRL register (see Section 10.1.3). For details, refer to UTMI+ Low Pin Interface (ULPI) Specification Rev. 1.1, Section 3.10. Figure 22 and Figure 23 provide examples of 6-pin serial mode and 3-pin serial mode, respectively. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 46 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver TRANSMIT SYNC DATA RECEIVE EOP SYNC DATA EOP DATA0 (TX_ENABLE) DATA1 (TX_DAT) DATA2 (TX_SE0) DATA4 (RX_DP) DATA5 (RX_DM) DATA6 (RX_RCV) DP DM 004aaa692 Fig 22. Example of transmit followed by receive in 6-pin serial mode TRANSMIT SYNC DATA RECEIVE EOP SYNC DATA EOP DATA0 (TX_ENABLE) DATA1 (TX_DAT/ RX_RCV) DATA2 (TX_SE0/ RX_SE0) DP DM 004aaa693 Fig 23. Example of transmit followed by receive in 3-pin serial mode CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 47 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 9.14 Aborting transfers The ISP1507 supports aborting transfers on the ULPI bus. For details, refer to UTMI+ Low Pin Interface (ULPI) Specification Rev. 1.1, Section 3.8.4. 9.15 Avoiding contention on the ULPI data bus Because the ULPI data bus is bidirectional, avoid situations in which both the link and the PHY simultaneously drive the data bus. The following points must be considered while implementing the data bus drive control on the link. After power-up and clock stabilization, default states are as follows: • The ISP1507 drives DIR to LOW. • The data bus is input to the ISP1507. • The ULPI link data bus is output, with all data bus lines driven to LOW. When the ISP1507 wants to take control of the data bus to initiate a data transfer, it changes the DIR value from LOW to HIGH. At this point, the link must disable its output buffers. This must be as fast as possible so the link must use a combinational path from DIR. The ISP1507 will not immediately enable its output buffers, but will delay the enabling of its buffers until the next clock edge, avoiding bus contention. When the data transfer is no longer required by the ISP1507, it changes DIR from HIGH to LOW and starts to immediately turn off its output drivers. The link senses the change of DIR from HIGH to LOW, but delays enabling its output buffers for one CLOCK cycle, avoiding data bus contention. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 48 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 10. Register map Table 19. Immediate register set overview Field name Size (bit) Address (6 bit) References R[1] W[2] S[3] C[4] VENDOR_ID_LOW 8 00h - - - Section 10.1.1 on page 50 VENDOR_ID_HIGH 8 01h - - - PRODUCT_ID_LOW 8 02h - - - PRODUCT_ID_HIGH 8 03h - - - FUNC_CTRL 8 04h to 06h 04h 05h 06h Section 10.1.2 on page 50 INTF_CTRL 8 07h to 09h 07h 08h 09h Section 10.1.3 on page 51 OTG_CTRL 8 0Ah to 0Ch 0Ah 0Bh 0Ch Section 10.1.4 on page 52 USB_INTR_EN_R_E 8 0Dh to 0Fh 0Dh 0Eh 0Fh Section 10.1.5 on page 54 USB_INTR_EN_F_E 8 10h to 12h 10h 11h 12h Section 10.1.6 on page 54 USB_INTR_STAT 8 13h - - - Section 10.1.7 on page 55 USB_INTR_L 8 14h - - - Section 10.1.8 on page 55 DEBUG 8 15h - - - Section 10.1.9 on page 56 SCRATCH 8 16h to 18h 16h 17h 18h Section 10.1.10 on page 56 Reserved (do not use) - Access extended register set 8 - 2Fh Vendor-specific registers 8 30h to 3Ch Section 10.1.13 on page 57 PWR_CTRL 8 3Dh to 3Fh Section 10.1.14 on page 57 19h to 2Eh - [1] Read (R): A register can be read. Read-only if this is the only mode given. [2] Write (W): The pattern on the data bus will be written over all bits of a register. Section 10.1.11 on page 56 - Section 10.1.12 on page 56 [3] Set (S): The pattern on the data bus is OR-ed with and written to a register. [4] Clear (C): The pattern on the data bus is a mask. If a bit in the mask is set, then the corresponding register bit will be set to zero (cleared). Table 20. Extended register set overview Field name Size (bit) Address (6 bit) R[1] W[2] References S[3] Maps to immediate register set above 8 00h to 3Fh Reserved (do not use) 8 40h to FFh C[4] Section 10.2 on page 57 [1] Read (R): A register can be read. Read-only if this is the only mode given. [2] Write (W): The pattern on the data bus will be written over all bits of a register. [3] Set (S): The pattern on the data bus is OR-ed with and written to a register. [4] Clear (C): The pattern on the data bus is a mask. If a bit in the mask is set, then the corresponding register bit will be set to zero (cleared). CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 49 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 10.1 Immediate register set 10.1.1 Vendor ID and Product ID registers 10.1.1.1 VENDOR_ID_LOW register Table 21 shows the bit description of the register. Table 21. VENDOR_ID_LOW - Vendor ID Low register (address R = 00h) bit description Legend: * reset value Bit Symbol Access Value Description 7 to 0 VENDOR_ID_ LOW[7:0] R CCh* Vendor ID Low: Lower byte of the ST-Ericsson vendor ID supplied by USB-IF; has a fixed value of CCh 10.1.1.2 VENDOR_ID_HIGH register The bit description of the register is given in Table 22. Table 22. VENDOR_ID_HIGH - Vendor ID High register (address R = 01h) bit description Legend: * reset value Bit Symbol Access Value Description 7 to 0 VENDOR_ID_ HIGH[7:0] R Vendor ID High: Upper byte of the ST-Ericsson vendor ID supplied by USB-IF; has a fixed value of 04h 10.1.1.3 04h* PRODUCT_ID_LOW register The bit description of the PRODUCT_ID_LOW register is given in Table 23. Table 23. PRODUCT_ID_LOW - Product ID Low register (address R = 02h) bit description Legend: * reset value Bit Symbol 7 to 0 PRODUCT_ID_ R LOW[7:0] Access 10.1.1.4 Value Description 04h* Product ID Low: Lower byte of the ST-Ericsson product ID number; has a fixed value of 04h PRODUCT_ID_HIGH register The bit description of the register is given in Table 24. Table 24. PRODUCT_ID_HIGH - Product ID High register (address R = 03h) bit description Legend: * reset value Bit Symbol 7 to 0 PRODUCT_ID_ R HIGH[7:0] Access Value Description 15h* Product ID High: Upper byte of the ST-Ericsson product ID number; has a fixed value of 15h 10.1.2 FUNC_CTRL register This register controls UTMI function settings of the PHY. The bit allocation of the register is given in Table 25. Table 25. FUNC_CTRL - Function Control register (address R = 04h to 06h, W = 04h, S = 05h, C = 06h) bit allocation Bit Symbol 7 6 5 reserved SUSPENDM RESET Reset Access 4 3 OPMODE[1:0] 2 TERM SELECT 1 0 XCVRSELECT[1:0] 0 1 0 0 0 0 0 1 R/W/S/C R/W/S/C R/W/S/C R/W/S/C R/W/S/C R/W/S/C R/W/S/C R/W/S/C CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 50 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver Table 26. FUNC_CTRL - Function Control register (address R = 04h to 06h, W = 04h, S = 05h, C = 06h) bit description Bit Symbol Description 7 - reserved 6 SUSPENDM Suspend LOW: Active LOW PHY suspend. Places the PHY into low-power mode. The PHY will power down all blocks, except the full-speed receiver, OTG comparators and ULPI interface pins. To come out of low-power mode, the link must assert STP. The PHY will automatically clear this bit when it exits low-power mode. 0b — Low-power mode 1b — Powered (default) 5 RESET Reset: Active HIGH transceiver reset. After the link sets this bit, the PHY will assert DIR and reset the digital core. This does not reset the ULPI interface or the ULPI register set. When reset is completed, the PHY will deassert DIR and automatically clear this bit, followed by an RXCMD update to the link. 0b — Do not reset (default) 1b — Reset The link must wait for DIR to deassert before using the ULPI bus. Does not reset the ULPI interface or the ULPI register set. 4 to 3 OPMODE[1:0] Operation Mode: Selects the required bit-encoding style during transmit. 00b — Normal operation (default) 01b — Non-driving 10b — Disable bit-stuffing and NRZI encoding 11b — Do not automatically add SYNC and EOP when transmitting; must be used only for high-speed packets 2 TERMSELECT Termination Select: Controls the internal 1.5 kΩ full-speed pull-up resistor and 45 Ω high-speed terminations. Control over bus resistors changes, depending on XCVRSELECT[1:0], OPMODE[1:0], DP_PULLDOWN and DM_PULLDOWN, as shown in Table 8. 1 to 0 XCVRSELECT Transceiver Select: Selects the required transceiver speed. [1:0] 00b — Enable the high-speed transceiver 01b — Enable the full-speed transceiver (default) 10b — Enable the low-speed transceiver 11b — Enable the full-speed transceiver for low-speed packets (full-speed preamble is automatically prefixed) 10.1.3 INTF_CTRL register The INTF_CTRL register enables alternative interfaces. All of these modes are optional features provided for legacy link cores. Setting more than one of these fields results in undefined behavior. Table 27 provides the bit allocation of the register. Table 27. INTF_CTRL - Interface Control register (address R = 07h to 09h, W = 07h, S = 08h, C = 09h) bit allocation Bit Symbol 7 6 5 4 3 2 INTF_ PROT_DIS IND_PASS THRU IND_ COMPL reserved CLOCK_ SUSPENDM reserved 0 0 0 0 0 0 0 0 R/W/S/C R/W/S/C R/W/S/C R/W/S/C R/W/S/C R/W/S/C R/W/S/C R/W/S/C Reset Access CD00222689 Product data sheet 1 0 3PIN_FSLS 6PIN_FSLS _SERIAL _SERIAL © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 51 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver Table 28. INTF_CTRL - Interface Control register (address R = 07h to 09h, W = 07h, S = 08h, C = 09h) bit description Bit Symbol Description 7 INTF_PROT_DIS Interface Protect Disable: Controls circuitry built into the ISP1507 to protect the ULPI interface when the link 3-states STP and DATA[7:0]. When this bit is enabled, the ISP1507 will automatically detect when the link stops driving STP. 0b — Enables the interface protect circuit (default). The ISP1507 attaches a weak pull-up resistor on STP. If STP is unexpectedly HIGH, the ISP1507 attaches weak pull-down resistors on DATA[7:0], protecting data inputs. 1b — Disables the interface protect circuit, detaches weak pull-down resistors on DATA[7:0], and a weak pull-up resistor on STP. 6 IND_PASSTHRU Indicator Pass-through: Controls whether the complement output is qualified with the internal A_VBUS_VLD comparator before being used in the VBUS state in RXCMD. For details, see Section 9.5.2.2. 0b — The complement output signal is qualified with the internal A_VBUS_VLD comparator (default). 1b — The complement output signal is not qualified with the internal A_VBUS_VLD comparator. 5 IND_COMPL Indicator Complement: Informs the PHY to invert the FAULT input signal, generating the complement output. For details, see Section 9.5.2.2. 0b — The ISP1507 will not invert the FAULT signal (default). 1b — The ISP1507 will invert the FAULT signal. 4 - reserved 3 CLOCK_SUSPENDM Clock Suspend LOW: Active LOW clock suspend. Powers down the internal clock circuitry only. By default, the clock will not be powered in 6-pin serial mode or 3-pin serial mode. Valid only in 6-pin serial mode and 3-pin serial mode. Valid only when SUSPENDM is set to logic 1, otherwise this bit is ignored. 0b — Clock will not be powered in 3-pin or 6-pin serial mode (default). 1b — Clock will be powered in 3-pin and 6-pin serial mode. 2 - reserved 1 3PIN_FSLS_SERIAL 3-Pin Full-Speed Low-Speed Serial Mode: Changes the ULPI interface to a 3-bit serial interface. The PHY will automatically clear this bit when 3-pin serial mode is exited. 0b — Full-speed or low-speed packets are sent using the parallel interface (default). 1b — Full-speed or low-speed packets are sent using the 3-pin serial interface. 0 6PIN_FSLS_SERIAL 6-Pin Full-Speed Low-Speed Serial Mode: Changes the ULPI interface to a 6-bit serial interface. The PHY will automatically clear this bit when 6-pin serial mode is exited. 0b — Full-speed or low-speed packets are sent using the parallel interface (default). 1b — Full-speed or low-speed packets are sent using the 6-pin serial interface. 10.1.4 OTG_CTRL register This register controls various OTG functions of the ISP1507. The bit allocation of the OTG_CTRL register is given in Table 29. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 52 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver Table 29. OTG_CTRL - OTG Control register (address R = 0Ah to 0Ch, W = 0Ah, S = 0Bh, C = 0Ch) bit allocation Bit 7 Symbol USE_EXT_ DRV_ VBUS_IND VBUS_EXT Reset Access Table 30. 6 5 4 3 2 1 0 DRV_ VBUS CHRG_ VBUS DISCHRG_ VBUS DM_PULL DOWN DP_PULL DOWN ID_PULL UP 0 0 0 0 0 1 1 0 R/W/S/C R/W/S/C R/W/S/C R/W/S/C R/W/S/C R/W/S/C R/W/S/C R/W/S/C OTG_CTRL - OTG Control register (address R = 0Ah to 0Ch, W = 0Ah, S = 0Bh, C = 0Ch) bit description Bit Symbol Description 7 USE_EXT_VBUS_ Use External VBUS Indicator: Informs the PHY to use an external VBUS overcurrent indicator. IND 0b — Use the internal OTG comparator (default). 1b — Use the external VBUS valid indicator signal input from the FAULT pin. 6 DRV_VBUS_EXT Drive VBUS External: Selects between the internal and external 5 V VBUS supply. Using an external charge pump or a 5 V supply is optional. 0b — Drive VBUS using the internal charge pump. Also ensures PSW_N is not driven to LOW (default). 1b — Drive VBUS using the external charge pump or the 5 V supply. Drives PSW_N to LOW. 5 DRV_VBUS Drive VBUS: Signals the ISP1507 to drive 5 V on VBUS. If DRV_VBUS_EXT is set to logic 1, then setting DRV_VBUS is optional. 0b — Do not drive VBUS (default). 1b — Drive 5 V on VBUS. 4 CHRG_VBUS Charge VBUS: Charges VBUS through a resistor. Used for the VBUS pulsing SRP. The link must first check that VBUS is discharged (see bit DISCHRG_VBUS), and that both the DP and DM data lines have been LOW (SE0) for 2 ms. 0b — Do not charge VBUS (default). 1b — Charge VBUS. 3 DISCHRG_VBUS Discharge VBUS: Discharges VBUS through a resistor. If the link sets this bit to logic 1, it waits for an RXCMD indicating that SESS_END has changed from 0 to 1, and then resets this bit to 0 to stop the discharge. 0b — Do not discharge VBUS (default). 1b — Discharge VBUS. 2 DM_PULLDOWN DM Pull Down: Enables the 15 kΩ pull-down resistor on DM. 0b — Pull-down resistor is not connected to DM. 1b — Pull-down resistor is connected to DM (default). 1 DP_PULLDOWN DP Pull Down: Enables the 15 kΩ pull-down resistor on DP. 0b — Pull-down resistor is not connected to DP. 1b — Pull-down resistor is connected to DP (default). 0 ID_PULLUP ID Pull Up: Connects a pull-up to the ID line and enables sampling of the ID level. Disabling the ID line sampler will reduce PHY power consumption. 0b — Disables sampling of the ID line (default). 1b — Enables sampling of the ID line. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 53 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 10.1.5 USB_INTR_EN_R_E register The bits in this register enable interrupts and RXCMDs to be sent when the corresponding bits in the USB_INTR_STAT register change from logic 0 to logic 1. By default, all transitions are enabled. Table 31 shows the bit allocation of the register. Table 31. USB_INTR_EN_R_E - USB Interrupt Enable Rising Edge register (address R = 0Dh to 0Fh, W = 0Dh, S = 0Eh, C = 0Fh) bit allocation Bit 7 6 Symbol 5 reserved Reset Access Table 32. 4 3 2 1 0 ID_GND_R SESS_ END_R SESS_ VALID_R VBUS_ VALID_R HOST_ DISCON_R 0 0 0 1 1 1 1 1 R/W/S/C R/W/S/C R/W/S/C R/W/S/C R/W/S/C R/W/S/C R/W/S/C R/W/S/C USB_INTR_EN_R_E - USB Interrupt Enable Rising Edge register (address R = 0Dh to 0Fh, W = 0Dh, S = 0Eh, C = 0Fh) bit description Bit Symbol Description 7 to 5 - reserved 4 ID_GND_R ID Ground Rise: Enables interrupts and RXCMDs for logic 0 to logic 1 transitions on ID_GND. 3 SESS_END_R Session End Rise: Enables interrupts and RXCMDs for logic 0 to logic 1 transitions on SESS_END. 2 SESS_VALID_R Session Valid Rise: Enables interrupts and RXCMDs for logic 0 to logic 1 transitions on SESS_VLD. 1 VBUS_VALID_R VBUS Valid Rise: Enables interrupts and RXCMDs for logic 0 to logic 1 transitions on A_VBUS_VLD. 0 HOST_DISCON_ R Host Disconnect Rise: Enables interrupts and RXCMDs for logic 0 to logic 1 transitions on HOST_DISCON. 10.1.6 USB_INTR_EN_F_E register The bits in this register enable interrupts and RXCMDs to be sent when the corresponding bits in the USB_INTR_STAT register change from logic 1 to logic 0. By default, all transitions are enabled. See Table 33. Table 33. USB_INTR_EN_F_E - USB Interrupt Enable Falling Edge register (address R = 10h to 12h, W = 10h, S = 11h, C = 12h) bit allocation Bit 7 Symbol 6 5 reserved Reset Access Table 34. 4 3 2 1 0 ID_GND_F SESS_ END_F SESS_ VALID_F VBUS_ VALID_F HOST_ DISCON_F 0 0 0 1 1 1 1 1 R/W/S/C R/W/S/C R/W/S/C R/W/S/C R/W/S/C R/W/S/C R/W/S/C R/W/S/C USB_INTR_EN_F_E - USB Interrupt Enable Falling Edge register (address R = 10h to 12h, W = 10h, S = 11h, C = 12h) bit description Bit Symbol Description 7 to 5 - reserved 4 ID_GND_F ID Ground Fall: Enables interrupts and RXCMDs for logic 1 to logic 0 transitions on ID_GND. 3 SESS_END_F Session End Fall: Enables interrupts and RXCMDs for logic 1 to logic 0 transitions on SESS_END. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 54 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver Table 34. USB_INTR_EN_F_E - USB Interrupt Enable Falling Edge register (address R = 10h to 12h, W = 10h, S = 11h, C = 12h) bit description …continued Bit Symbol Description 2 SESS_VALID_F Session Valid Fall: Enables interrupts and RXCMDs for logic 1 to logic 0 transitions on SESS_VLD. 1 VBUS_VALID_F VBUS Valid Fall: Enables interrupts and RXCMDs for logic 1 to logic 0 transitions on A_VBUS_VLD. 0 HOST_DISCON _F Host Disconnect Fall: Enables interrupts and RXCMDs for logic 1 to logic 0 transitions on HOST_DISCON. 10.1.7 USB_INTR_STAT register This register (see Table 35) indicates the current value of the interrupt source signal. Table 35. USB_INTR_STAT - USB Interrupt Status register (address R = 13h) bit allocation Bit 7 6 Symbol 5 reserved 4 3 2 1 0 ID_GND SESS_END SESS_ VALID VBUS_ VALID HOST_ DISCON Reset X X X 0 0 0 0 0 Access R R R R R R R R Table 36. USB_INTR_STAT - USB Interrupt Status register (address R = 13h) bit description Bit Symbol Description 7 to 5 - reserved 4 ID_GND ID Ground: Reflects the current value of the ID detector circuit. 3 SESS_END Session End: Reflects the current value of the session end voltage comparator. 2 SESS_VALID Session Valid: Reflects the current value of the session valid voltage comparator. 1 VBUS_VALID VBUS Valid: Reflects the current value of the VBUS valid voltage comparator. 0 HOST_DISCON Host Disconnect: Reflects the current value of the host disconnect detector. 10.1.8 USB_INTR_L register The bits of the USB_INTR_L register are automatically set by the ISP1507 when an unmasked change occurs on the corresponding interrupt source signal. The ISP1507 will automatically clear all bits when the link reads this register, or when the PHY enters low-power or serial mode. Remark: It is optional for the link to read this register when the clock is running because all signal information will automatically be sent to the link through the RXCMD byte. The bit allocation of this register is given in Table 37. Table 37. USB_INTR_L - USB Interrupt Latch register (address R = 14h) bit allocation Bit 7 Symbol 6 5 reserved 4 3 2 1 0 ID_GND_L SESS_ END_L SESS_ VALID_L VBUS_ VALID_L HOST_ DISCON_L Reset 0 0 0 0 0 0 0 0 Access R R R R R R R R CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 55 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver Table 38. USB_INTR_L - USB Interrupt Latch register (address R = 14h) bit description Bit Symbol Description 7 to 5 - reserved 4 ID_GND_L ID Ground Latch: Automatically set when an unmasked event occurs on ID_GND. Cleared when this register is read. 3 SESS_END_L Session End Latch: Automatically set when an unmasked event occurs on SESS_END. Cleared when this register is read. 2 SESS_VALID_L Session Valid Latch: Automatically set when an unmasked event occurs on SESS_VLD. Cleared when this register is read. 1 VBUS_VALID_L VBUS Valid Latch: Automatically set when an unmasked event occurs on A_VBUS_VLD. Cleared when this register is read. 0 HOST_DISCON_L Host Disconnect Latch: Automatically set when an unmasked event occurs on HOST_DISCON. Cleared when this register is read. 10.1.9 DEBUG register The bit allocation of the DEBUG register is given in Table 39. This register indicates the current value of signals useful for debugging. Table 39. DEBUG - Debug register (address R = 15h) bit allocation Bit 7 6 5 Symbol 4 3 2 reserved 1 0 LINE STATE1 LINE STATE0 Reset 0 0 0 0 0 0 0 0 Access R R R R R R R R Table 40. DEBUG - Debug register (address R = 15h) bit description Bit Symbol Description 7 to 2 - reserved 1 LINESTATE1 Line State 1: Contains the current value of LINESTATE 1. 0 LINESTATE0 Line State 0: Contains the current value of LINESTATE 0. 10.1.10 SCRATCH register This is an empty register for testing purposes; see Table 41. Table 41. SCRATCH - Scratch register (address R = 16h to 18h, W = 16h, S = 17h, C = 18h) bit description Legend: * reset value Bit Symbol Access Value Description 7 to 0 SCRATCH R/W/S/C 00h* [7:0] Scratch: This is an empty register byte for testing purposes. Software can read, write, set and clear this register. The functionality of the PHY will not be affected. 10.1.11 Reserved Registers 19h to 2Eh are not implemented. Operating on these addresses will have no effect on the PHY. 10.1.12 Access extended register set Address 2Fh does not contain register data. Instead it links to the extended register set. The immediate register set maps to the lower end of the extended register set. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 56 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 10.1.13 Vendor-specific registers Addresses 30h to 3Fh contain vendor-specific registers. 10.1.14 PWR_CTRL register This register controls various aspects of the ISP1507. See Table 42. Table 42. PWR_CTRL - Power Control register (address R = 3Dh to 3Fh, W = 3Dh, S = 3Eh, C = 3Fh) bit allocation Bit 7 6 Symbol 5 4 reserved Reset Access 3 2 BVALID_ FALL BVALID_ RISE 1 0 reserved 0 0 0 0 0 0 0 0 R/W/S/C R/W/S/C R/W/S/C R/W/S/C R/W/S/C R/W/S/C R/W/S/C R/W/S/C Table 43. PWR_CTRL - Power Control register (address R = 3Dh to 3Fh, W = 3Dh, S = 3Eh, C = 3Fh) bit description Bit Symbol Description 7 to 4 - reserved; the link must never write logic 1 to these bits. 3 BVALID_FALL BVALID Fall: Enables RXCMDs for HIGH-to-LOW transitions on BVALID. When BVALID changes from HIGH to LOW, the ISP1507 will send an RXCMD to the link with the ALT_INT bit set to logic 1. This bit is optional and is not necessary for OTG devices. This bit is provided for debugging purposes. The session valid comparator should be used instead. 2 BVALID_RISE BVALID Rise: Enables RXCMDs for LOW-to-HIGH transitions on BVALID. When BVALID changes from LOW to HIGH, the ISP1507 will send an RXCMD to the link with the ALT_INT bit set to logic 1. This bit is optional and is not necessary for OTG devices. This bit is provided for debugging purposes. The session valid comparator should be used instead. 1 to 0 - reserved; the link must never write logic 1 to these bits. 10.2 Extended register set Addresses 00h to 3Fh of the extended register set directly map to the immediate set. This means a read, write, set or clear operation to these extended addresses will operate on the immediate register set. Addresses 40h to FFh are not implemented. Operating on these addresses may result in undefined behavior of the PHY. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 57 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 11. ElectroStatic Discharge (ESD) 11.1 ESD protection The pins that are connected to the USB connector (DP, DM, ID, VBUS and GND) have a minimum of ±4 kV ESD protection. Capacitors 0.1 μF and 1 μF must be connected in parallel from VBUS to GND to achieve this ±4 kV ESD protection (see Figure 24). Remark: Capacitors 0.1 μF and 1 μF are also required by Universal Serial Bus Specification Rev. 2.0. For details on the requirements for CVBUS, see Section 16. RC 1 MΩ RD 1500 Ω charge current limit resistor discharge resistance DEVICE UNDER TEST VBUS A HIGH VOLTAGE DC SOURCE CS 100 pF storage capacitor B 0.1 μF 1 μF GND 004aaa881 Fig 24. Human body ESD test model 11.2 ESD test conditions A detailed report on test setup and results is available on request. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 58 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 12. Limiting values Table 44. Limiting values In accordance with the Absolute Maximum Rating System (IEC 60134). Symbol Parameter VCC supply voltage VCC(I/O) input/output supply voltage VI input voltage VESD Conditions electrostatic discharge voltage Ilu latch-up current Tstg storage temperature Min Max Unit −0.5 +4.6 V V −0.5 +4.6 on pins STP, DATA[7:0], RESET_N and CHIP_SELECT_N −0.5 VCC(I/O) + 0.5[1][2][3] V on pins VBUS, FAULT and PSW_N −0.5 +6.0 on pin XTAL1 −0.5 +2.5 V on pin ID −0.5 +4.6 V V on pins DP and DM [4] −0.5 +4.6 V pins DP, DM, ID, VBUS and GND; ILI < 1 μA [5] −4 +4 kV all other pins; ILI < 1 μA [5] −1.5 +1.5 kV - 100 mA −40 +125 °C −0.5 × VCC < V < +1.5 × VCC [1] Maximum value may not exceed 4.6 V. [2] Includes voltage on outputs in 3-state mode. [3] Only valid when the VCC(I/O) supply voltage is present. [4] The ISP1507 has been tested according to the additional requirements listed in Universal Serial Bus Specification Rev. 2.0, Section 7.1.1. The short circuit withstand test and the AC stress test were performed for 24 hours, and the ISP1507 was found to be fully operational after the test completed. [5] Equivalent to discharging a 100 pF capacitor through a 1.5 kΩ resistor (Human Body Model JESD22-A114D). 13. Recommended operating conditions Table 45. Recommended operating conditions Symbol Parameter VCC supply voltage VCC(I/O) input/output supply voltage VI input voltage Conditions [1] on pins STP, DATA[7:0], RESET_N and CHIP_SELECT_N Min Typ Max Unit 3.0 3.3 3.6 V 1.65 - 3.6 V 0 - VCC(I/O) V on pins VBUS, FAULT and PSW_N 0 - 5.5 V on pins DP, DM and ID 0 - 3.6 V on pin XTAL1 0 - 1.95 V Tamb ambient temperature −40 +25 +85 °C Tj junction temperature −40 - +125 °C [1] VCC(I/O) must be less than or equal to VCC. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 59 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 14. Static characteristics Table 46. Static characteristics: supply pins VCC = 3.0 V to 3.6 V; VCC(I/O) = 1.65 V to 3.6 V; Tamb = −40 °C to +85 °C; unless otherwise specified. Typical values are at VCC = 3.3 V; VCC(I/O) = 3.3 V; Tamb = +25 °C; unless otherwise specified. Symbol Parameter Conditions Min Typ Max Unit V(REG3V3) voltage on pin REG3V3 3.0 3.3 3.6 V V(REG1V8) voltage on pin REG1V8 1.65 1.8 1.95 V VPOR(trip) power-on reset trip voltage 1.0 - 1.5 V ICC supply current low-power mode; VBUS valid detector disabled; 1.5 kΩ pull-up resistor on pin DP disconnected - 35 85 μA low-power mode; VBUS valid detector disabled; 1.5 kΩ pull-up resistor on pin DP connected - 215 280 μA charge pump disabled full-speed continuous data transmit; 50 pF load on pins DP and DM [1] - 15 - mA full-speed continuous data receive [1] - 11 - mA high-speed continuous data transmit; 45 Ω load on pins DP and DM to ground [1] - 48 - mA high-speed continuous data receive [1] - 28 - mA IO(VBUS) = 8 mA; charge pump supply current only - 20 23 mA IO(VBUS) = 0 mA; charge pump supply current only - 300 - μA - - 1 μA charge pump enabled ICC(I/O) [1] supply current on pin VCC(I/O) ULPI interface pins are static A continuous stream of 1 kB packets with minimum inter-packet gap and all data bits set to logic 0 for continuous toggling. Table 47. Static characteristics: digital pins Digital pins: CLOCK, DIR, STP, NXT, DATA[7:0], RESET_N and CHIP_SELECT_N; unless otherwise specified. VCC = 3.0 V to 3.6 V; VCC(I/O) = 1.65 V to 3.6 V; Tamb = −40 °C to +85 °C; unless otherwise specified. Typical values are at VCC = 3.3 V; VCC(I/O) = 3.3 V; Tamb = +25 °C; unless otherwise specified. Symbol Parameter Conditions Min Typ Max Unit - - 0.3 × VCC(I/O) V Input levels VIL LOW-level input voltage VIH HIGH-level input voltage 0.7 × VCC(I/O) - - V IIL LOW-level input current VI = 0 V - - 1 μA IIH HIGH-level input current VI = VCC(I/O) - - 1 μA ILI input leakage current −1 +0.1 +1 μA Output levels VOH HIGH-level output voltage IOH = −4 mA VCC(I/O) − 0.4 - - V VOL LOW-level output voltage - - 0.4 V IOH HIGH-level output current VO = VCC(I/O) − 0.4 V −4 - - mA IOL = +4 mA CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 60 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver Table 47. Static characteristics: digital pins …continued Digital pins: CLOCK, DIR, STP, NXT, DATA[7:0], RESET_N and CHIP_SELECT_N; unless otherwise specified. VCC = 3.0 V to 3.6 V; VCC(I/O) = 1.65 V to 3.6 V; Tamb = −40 °C to +85 °C; unless otherwise specified. Typical values are at VCC = 3.3 V; VCC(I/O) = 3.3 V; Tamb = +25 °C; unless otherwise specified. Symbol Parameter Conditions Min Typ Max Unit IOL LOW-level output current VO = 0.4 V +4 - - mA IOZ off-state output current 0 V < VO < VCC(I/O) - - 1 μA 45 - 65 Ω Impedance ZL load impedance Pull-up and pull-down Ipd pull-down current interface protect enabled; DATA[7:0] pins only; VI = VCC(I/O) 25 50 90 μA Ipu pull-up current interface protect enabled; STP pin only; VI = 0 V −30 −50 −80 μA pins STP, RESET_N, DATA[7:0], CHIP_SELECT_N - - 3.5 pF Capacitance Cin input capacitance Table 48. Static characteristics: digital pin FAULT VCC = 3.0 V to 3.6 V; VCC(I/O) = 1.65 V to 3.6 V; Tamb = −40 °C to +85 °C; unless otherwise specified. Typical values are at VCC = 3.3 V; VCC(I/O) = 3.3 V; Tamb = +25 °C; unless otherwise specified. Symbol Parameter Conditions Min Typ Max Unit - - 0.8 V Input levels VIL LOW-level input voltage VIH HIGH-level input voltage 2.0 - - V IIL LOW-level input current VI = 0 V - - 1 μA IIH HIGH-level input current VI = VCC(I/O) - - 1 μA Table 49. Static characteristics: digital pin PSW_N VCC = 3.0 V to 3.6 V; VCC(I/O) = 1.65 V to 3.6 V; Tamb = −40 °C to +85 °C; unless otherwise specified. Symbol Parameter Conditions Min Typ Max Unit external pull-up resistor connected - - 5.5 V Output levels VOH HIGH-level output voltage VOL LOW-level output voltage IOL = −4 mA - - 0.4 V IOH HIGH-level output current external pull-up resistor connected - - 1 μA IOL LOW-level output current VO = 0.4 V 4.0 - - mA Table 50. Static characteristics: analog I/O pins (DP, DM) VCC = 3.0 V to 3.6 V; VCC(I/O) = 1.65 V to 3.6 V; Tamb = −40 °C to +85 °C; unless otherwise specified. Typical values are at VCC = 3.3 V; VCC(I/O) = 3.3 V; Tamb = +25 °C; unless otherwise specified. Symbol Parameter Conditions Min Typ Max Unit 0.2 - - V Original USB transceiver (low-speed and full-speed) Input levels (differential receiver) VDI differential input sensitivity voltage |VDP − VDM| CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 61 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver Table 50. Static characteristics: analog I/O pins (DP, DM) …continued VCC = 3.0 V to 3.6 V; VCC(I/O) = 1.65 V to 3.6 V; Tamb = −40 °C to +85 °C; unless otherwise specified. Typical values are at VCC = 3.3 V; VCC(I/O) = 3.3 V; Tamb = +25 °C; unless otherwise specified. Symbol Parameter Conditions Min Typ Max Unit VCM differential common mode voltage range includes VDI range 0.8 - 2.5 V Input levels (single-ended receivers) VIL LOW-level input voltage - - 0.8 V VIH HIGH-level input voltage 2.0 - - V Output levels VOL LOW-level output voltage pull-up on pin DP; RL = 1.5 kΩ to 3.6 V 0.0 0.18 0.3 V VOH HIGH-level output voltage pull-down on pins DP and DM; RL = 15 kΩ to GND 2.8 3.2 3.6 V termination voltage for upstream facing port pull-up for 1.5 kΩ pull-up resistor 3.0 - 3.6 V 1425 1500 1575 Ω Termination VTERM Resistance RUP(DP) pull-up resistance on pin DP High-speed USB transceiver Input levels (differential receiver) VHSSQ high-speed squelch detection threshold voltage (differential signal amplitude) 100 - 150 mV VHSDSC high-speed disconnect detection threshold voltage (differential signal amplitude) 525 - 625 mV VHSDI high-speed differential input sensitivity |VDP − VDM| 100 - - mV VHSCM high-speed data signaling common mode voltage range (guideline for receiver) −50 - +500 mV VHSOI high-speed idle level voltage −10 - +10 mV VHSOL high-speed data signaling LOW-level voltage −10 - +10 mV includes VDI range Output levels VHSOH high-speed data signaling HIGH-level voltage 360 - 440 mV VCHIRPJ Chirp J level (differential voltage) 700 - 1100 mV VCHIRPK Chirp K level (differential voltage) −900 - −500 mV −1 - +1 μA - - 5 pF Leakage current ILZ off-state leakage current Capacitance Cin input capacitance pin to GND CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 62 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver Table 50. Static characteristics: analog I/O pins (DP, DM) …continued VCC = 3.0 V to 3.6 V; VCC(I/O) = 1.65 V to 3.6 V; Tamb = −40 °C to +85 °C; unless otherwise specified. Typical values are at VCC = 3.3 V; VCC(I/O) = 3.3 V; Tamb = +25 °C; unless otherwise specified. Symbol Parameter Conditions Min Typ Max Unit Resistance RDN(DP) pull-down resistance on pin DP 14.25 15 15.75 kΩ RDN(DM) pull-down resistance on pin DM 14.25 15 15.75 kΩ 45 49.5 Ω Termination ZO(drv)(DP) driver output impedance on pin DP ZO(drv)(DM) driver output impedance on pin DM ZINP input impedance exclusive of pull-up/pull-down (for low-/full-speed) [1] steady-state drive [1] 40.5 steady-state drive [1] 40.5 45 49.5 Ω 10 - - MΩ For high-speed USB and full-speed USB. Table 51. Static characteristics: charge pump VCC = 3.0 V to 3.6 V; VCC(I/O) = 1.65 V to 3.6 V; Tamb = −40 °C to +85 °C; unless otherwise specified. Typical values are at VCC = 3.3 V; VCC(I/O) = 3.3 V; Tamb = +25 °C; unless otherwise specified. Symbol Parameter Conditions Min Typ Max Unit VO(VBUS) output voltage on pin VBUS IO(VBUS) = 50 mA; Ccp(C_A)-(C_B) = 270 nF 4.65 5.0 5.25 V VL(VBUS) leakage voltage on pin VBUS charge pump disabled - - 0.2 V output current on pin VBUS Ccp(C_A)-(C_B) = 270 nF 45 75 - mA charge pump efficiency IO(VBUS) = 50 mA 60 72 78 % Voltage Current IO(VBUS) Efficiency ηcp Table 52. Static characteristics: VBUS comparators VCC = 3.0 V to 3.6 V; VCC(I/O) = 1.65 V to 3.6 V; Tamb = −40 °C to +85 °C; unless otherwise specified. Typical values are at VCC = 3.3 V; VCC(I/O) = 3.3 V; Tamb = +25 °C; unless otherwise specified. Symbol Parameter VA_VBUS_VLD A-device VBUS valid voltage Conditions VB_SESS_VLD B-device session valid voltage Vhys(B_SESS_VLD) B-device session valid hysteresis voltage 70 90 110 mV VB_SESS_END B-device session end voltage 0.2 0.5 0.8 V for A-device and B-device CD00222689 Product data sheet Min Typ Max Unit 4.4 4.5 4.65 V 0.8 1.6 2.0 V © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 63 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver Table 53. Static characteristics: VBUS resistors VCC = 3.0 V to 3.6 V; VCC(I/O) = 1.65 V to 3.6 V; Tamb = −40 °C to +85 °C; unless otherwise specified. Typical values are at VCC = 3.3 V; VCC(I/O) = 3.3 V; Tamb = +25 °C; unless otherwise specified. Symbol Parameter Conditions Min Typ Max Unit RUP(VBUS) pull-up resistance on pin VBUS connect to pin REG3V3 when CHRG_VBUS is logic 1 281 680 - Ω RDN(VBUS) pull-down resistance on pin VBUS connect to GND when DISCHRG_VBUS is logic 1 656 1100 - Ω RI(idle)(VBUS)(A) idle input resistance on pin VBUS (A-device) ID pin LOW and charge pump disabled 40 57 80 kΩ RI(idle)(VBUS)(B) idle input resistance on pin VBUS (B-device) ID pin HIGH or charge pump enabled 170 240 310 kΩ Table 54. Static characteristics: ID detection circuit VCC = 3.0 V to 3.6 V; VCC(I/O) = 1.65 V to 3.6 V; Tamb = −40 °C to +85 °C; unless otherwise specified. Typical values are at VCC = 3.3 V; VCC(I/O) = 3.3 V; Tamb = +25 °C; unless otherwise specified. Symbol Parameter tID ID detection time Vth(ID) ID detector threshold voltage RUP(ID) ID pull-up resistance Conditions ID_PULLUP is logic 1 Min Typ Max Unit 50 - - ms 0.8 1.2 2.0 V 40 50 60 kΩ Table 55. Static characteristics: resistor reference VCC = 3.0 V to 3.6 V; VCC(I/O) = 1.65 V to 3.6 V; Tamb = −40 °C to +85 °C; unless otherwise specified. Typical values are at VCC = 3.3 V; VCC(I/O) = 3.3 V; Tamb = +25 °C; unless otherwise specified. Symbol Parameter Conditions VO(RREF) output voltage on pin RREF SUSPENDM is logic 1 CD00222689 Product data sheet Min Typ Max Unit - 1.22 - V © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 64 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 004aaa876 120 ICC(cp) (mA) 100 004aaa877 5.50 VCC = 3.6 V VCC = 3.6 V 3.3 V 3.0 V 80 3.3 V 3.0 V VO(VBUS) (V) 5.00 60 4.50 40 20 4.00 0 0 10 20 30 0 40 50 IO(VBUS) (mA) 10 20 30 40 50 IO(VBUS) (mA) ICC(cp) denotes charge pump supply current. Fig 25. Charge pump supply current as a function of VBUS output current 5.50 004aaa878 004aaa879 108 IO(VBUS) = 0 mA ICC(cp) (mA) 8 mA 50 mA VO(VBUS) (V) Fig 26. VBUS output voltage as a function of VBUS output current 106 5.00 IO(VBUS) = 50 mA 104 4.50 102 4.00 3 3.1 3.2 3.3 3.4 3.5 3.6 VCC(cp) (V) VCC(cp) denotes charge pump supply voltage. 100 −40 0 +20 +40 +60 +80 +100 Tamb (°C) ICC(cp) denotes charge pump supply current. Fig 27. VBUS output voltage as a function of charge pump supply voltage Fig 28. Charge pump supply current as a function of temperature CD00222689 Product data sheet −20 © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 65 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 15. Dynamic characteristics Table 56. Dynamic characteristics: reset and clock VCC = 3.0 V to 3.6 V; VCC(I/O) = 1.65 V to 3.6 V; Tamb = −40 °C to +85 °C; unless otherwise specified. Typical values are at VCC = 3.3 V; VCC(I/O) = 3.3 V; Tamb = +25 °C; unless otherwise specified. Symbol Parameter Conditions Min Typ Max Unit Reset tW(POR) internal power-on reset pulse width 0.2 - - μs tw(REG1V8_H) REG1V8 HIGH pulse width 2 - - μs tw(REG1V8_L) REG1V8 LOW pulse width 11 - - μs tW(RESET_N) external RESET_N pulse width 200 - - ns tREGUP regulator start-up time 4.7 μF ± 20 % capacitor each on pins REG1V8 and REG3V3 VCC = 3.3 V; Tamb = +25 °C - 2 - ms VCC = 3.0 V; Tamb = −40 °C - - 50 ms Crystal or clock applied to XTAL1 fi(XTAL1) input frequency on pin XTAL1 ISP1507A - 19.2 - MHz ISP1507B - 26 - MHz tjit(i)(XTAL1)RMS RMS input jitter on pin XTAL1 ISP1507A - - 200 ps - - 300 ps - 50 - % - 50 200 ppm ISP1507B δi(XTAL1) input duty cycle on pin XTAL1 Δfi(XTAL1) input frequency tolerance on pin XTAL1 tr(XTAL1) rise time on pin XTAL1 only for square wave input - - 5 ns tf(XTAL1) fall time on pin XTAL1 only for square wave input - - 5 ns V(XTAL1)(p-p) peak-to-peak voltage on pin XTAL1 only for square wave input 0.566 - 1.95 V - 60 - MHz tjit(o)(CLOCK)RMS RMS output jitter on pin CLOCK - - 500 ps δo(CLOCK) output clock duty cycle on pin CLOCK 45 50 55 % tstartup(PLL) PLL startup time - 650 - μs 450 650 900 μs applicable only when clock is applied on pin XTAL1 [1] Output CLOCK characteristics fo(CLOCK) output frequency on pin CLOCK tstartup(o)(CLOCK) output CLOCK start-up time [1] measured from power good or assertion of pin STP The internal PLL is triggered only on the positive edge from the crystal oscillator. Therefore, the duty cycle is not critical. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 66 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver Table 57. Dynamic characteristics: digital I/O pins VCC = 3.0 V to 3.6 V; Tamb = −40 °C to +85 °C; unless otherwise specified. Symbol Parameter Conditions Min Typ Max Unit VCC(I/O) = 1.65 V to 1.95 V tsu(DATA) DATA set-up time with respect to 20 pF total external load the rising edge of pin CLOCK per pin 5.7 - - ns th(DATA) DATA hold time with respect to the rising edge of pin CLOCK 20 pF total external load per pin 0 - - ns td(DATA) DATA output delay with respect 20 pF total external load to the rising edge of pin CLOCK per pin - - 7.8 ns tsu(STP) STP set-up time with respect to the rising edge of pin CLOCK 20 pF total external load per pin 4.5 - - ns th(STP) STP hold time with respect to the rising edge of pin CLOCK 20 pF total external load per pin 0 - - ns td(DIR) DIR output delay with respect to 20 pF total external load the rising edge of pin CLOCK per pin - - 8.9 ns td(NXT) NXT output delay with respect to 20 pF total external load the rising edge of pin CLOCK per pin - - 8.9 ns VCC(I/O) = 3.0 V to 3.6 V tsu(DATA) DATA set-up time with respect to 30 pF total external load the rising edge of pin CLOCK per pin 3.3 - - ns th(DATA) DATA hold time with respect to the rising edge of pin CLOCK 0.8 - - ns td(DATA) DATA output delay with respect 30 pF total external load to the rising edge of pin CLOCK per pin - - 5.5 ns tsu(STP) STP set-up time with respect to the rising edge of pin CLOCK 30 pF total external load per pin 3.4 - - ns th(STP) STP hold time with respect to the rising edge of pin CLOCK 30 pF total external load per pin 0.8 - - ns td(DIR) DIR output delay with respect to 30 pF total external load the rising edge of pin CLOCK per pin - - 6.6 ns td(NXT) NXT output delay with respect to 30 pF total external load the rising edge of pin CLOCK per pin - - 6.6 ns 30 pF total external load per pin Table 58. Dynamic characteristics: analog I/O pins (DP and DM) VCC = 3.0 V to 3.6 V; VCC(I/O) = 1.65 V to 3.6 V; Tamb = −40 °C to +85 °C; unless otherwise specified. Typical values are at VCC = 3.3 V; VCC(I/O) = 3.3 V; Tamb = +25 °C; unless otherwise specified. Symbol Parameter Conditions Min Typ Max Unit High-speed driver tHSR rise time (10 % to 90 %) 500 - - ps tHSF fall time (10 % to 90 %) 500 - - ps Full-speed driver tFR rise time CL = 50 pF; 10 % to 90 % of |VOH − VOL| 4 - 20 ns tFF fall time CL = 50 pF; 10 % to 90 % of |VOH − VOL| 4 - 20 ns tFRFM differential rise and fall time matching excluding the first transition from the idle state 90 - 111.1 % CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 67 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver Table 58. Dynamic characteristics: analog I/O pins (DP and DM) …continued VCC = 3.0 V to 3.6 V; VCC(I/O) = 1.65 V to 3.6 V; Tamb = −40 °C to +85 °C; unless otherwise specified. Typical values are at VCC = 3.3 V; VCC(I/O) = 3.3 V; Tamb = +25 °C; unless otherwise specified. Symbol Parameter Conditions Min Typ Max Unit VCRS output signal crossover voltage excluding the first transition from the idle state 1.3 - 2.0 V Low-speed driver tLR transition time: rise time CL = 200 pF to 600 pF; 1.5 kΩ pull-up on pin DM enabled; 10 % to 90 % of |VOH − VOL| 75 - 300 ns tLF transition time: fall time CL = 200 pF to 600 pF; 1.5 kΩ pull-up on pin DM enabled; 10 % to 90 % of |VOH − VOL| 75 - 300 ns tLRFM rise and fall time matching tLR/tLF; excluding the first transition from the idle state 80 - 125 % Driver timing tPLH(drv) driver propagation delay (LOW to HIGH) TX_DAT, TX_SE0 to DP, DM; see Figure 30 - - 20 ns tPHL(drv) driver propagation delay (HIGH to LOW) TX_DAT, TX_SE0 to DP, DM; see Figure 30 - - 20 ns tPHZ driver disable delay from HIGH level TX_ENABLE to DP, DM; see Figure 31 - - 12 ns tPLZ driver disable delay from LOW level TX_ENABLE to DP, DM; see Figure 31 - - 12 ns tPZH driver enable delay to HIGH level TX_ENABLE to DP, DM; see Figure 31 - - 20 ns tPZL driver enable delay to LOW level TX_ENABLE to DP, DM; see Figure 31 - - 20 ns Receiver timing Differential receiver tPLH(rcv) receiver propagation delay (LOW to HIGH) DP, DM to RX_RCV, RX_DP and RX_DM; see Figure 32 - - 20 ns tPHL(rcv) receiver propagation delay (HIGH to LOW) DP, DM to RX_RCV, RX_DP and RX_DM; see Figure 32 - - 20 ns Single-ended receiver tPLH(se) single-ended propagation delay (LOW to HIGH) DP, DM to RX_RCV, RX_DP and RX_DM; see Figure 32 - - 20 ns tPHL(se) single-ended propagation delay (HIGH to LOW) DP, DM to RX_RCV, RX_DP and RX_DM; see Figure 32 - - 20 ns CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 68 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 1.8 V 0.9 V logic input 0.9 V tHSF, tFF, tLF tHSR, tFR, tLR 0V VOH VOL 90 % tPLH(drv) 90 % tPHL(drv) VOH 10 % differential data lines 10 % VCRS VOL 004aaa861 Fig 29. Rise time and fall time VCRS 004aaa573 Fig 30. Timing of TX_DAT and TX_SE0 to DP and DM 2.0 V 1.8 V logic 0.9 V input differential data lines 0.9 V VCRS VCRS 0.8 V 0V VOH tPLH(rcv) tPLH(se) tPHZ tPLZ tPZH tPZL VOH VOH − 0.3 V differential data lines VOL + 0.3 V VOL 004aaa574 Fig 31. Timing of TX_ENABLE to DP and DM 0.9 V 0.9 V logic output VCRS VOL tPHL(rcv) tPHL(se) 004aaa575 Fig 32. Timing of DP and DM to RX_RCV, RX_DP and RX_DM 15.1 ULPI timing ULPI interface timing requirements are given in Figure 33. This timing applies to synchronous mode only. All timing is measured with respect to the ISP1507 CLOCK pin. All signals are clocked on the rising edge of CLOCK. CLOCK tsu(STP) th(STP) CONTROL IN (STP) tsu(DATA) th(DATA) DATA IN (8-BIT) td(DIR), td(NXT) CONTROL OUT (DIR, NXT) td(DATA) td(DIR), td(NXT) DATA OUT (8-BIT) 004aaa722 Fig 33. ULPI interface timing CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 69 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 16. Application information Table 59. Recommended list of materials Designator[1] Application Value Comment - Cbypass highly recommended for all applications 0.1 μF Ccp(C_A)-(C_B) charge pump is used 22 nF (8 mA), 270 nF (50 mA); up to 470 nF (50 mA) Cfilter highly recommended for all applications 4.7 μF ± 20 %; use a LOW ESR capacitor (0.2 Ω to 2 Ω) for best performance - CVBUS mandatory for peripherals 0.1 μF and 1 μF to 10 μF in parallel - mandatory for host 0.1 μF and 120 μF ± 20 % (min) in parallel - mandatory for OTG 0.1 μF and 1 μF to 6.5 μF in parallel - Rpullup recommended; for applications with an external VBUS supply controlled by PSW_N 4.7 kΩ (recommended) maximum value is determined by the voltage drop on PSW_N caused by leakage into PSW_N and the external supply control pin RRREF mandatory in all applications 12 kΩ ± 1 % - RVBUS strongly recommended for peripheral or external 5 V applications only 1 kΩ ± 5 % - RXTAL required only for 47 kΩ ± 5 % applications driving a square wave into the XTAL1 pin XTAL crystal is used used to avoid floating input on the XTAL1 pin 19.2 MHz CL = 10 pF; RS < 220 Ω; CXTAL = 18 pF 26 MHz CL = 10 pF; RS < 130 Ω; CXTAL = 18 pF CSTCE26M0XK2***-R0[2] CXTAL is not required C(XTAL)SQ required only for 100 pF applications driving a square wave into the XTAL1 pin that has a DC offset used to AC couple the input square wave to the XTAL1 pin DVBUS recommended for all OTG applications STPS0520Z; Schottky rectifier - Remark: Adding Schottky diode will bring down the VBUS voltage by 0.2 V to 0.25 V, depending on the load current. However, it is still within the requirement of Universal Serial Bus Specification Rev. 2.0. [1] For detailed information and alternative interface options, refer to the Interfacing to the ISP1507 (AN10080) application note. [2] For more information, contact Murata. Remark: The link controls CHIP_SELECT_N of the ISP1507 so that other ICs can utilize the interface pins when the ISP1507 is not selected. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 70 of 81 xxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxx x x x xxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxx xx xx xxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxx xxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxx x x xxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxx xxx CD00222689 Product data sheet VCC(I/O) Cbypass DATA0 VCC VCC(I/O) 1 2 3 Cbypass VBUS RRREF RREF D− DM DP D+ Cbypass Cbypass DATA1 1 32 2 31 3 30 4 29 5 28 DATA2 VCC(I/O) DATA0 CHIP_ SELECT_N DATA1 DATA3 DATA2 CHIP_SELECT_N 4 FAULT ID Rev. 04 — 20 May 2010 ID USB 5 GND MICRO-AB RECEPTACLE CPGND 6 SHIELD C_B 7 SHIELD Ccp(C_A)-(C_B) C_A CLOCK 6 27 DATA3 DATA4 7 26 8 25 DATA4 DATA5 ISP1507 9 DATA5 DATA6 24 OTG CONTROLLER DATA6 DATA7 10 23 11 22 12 21 13 20 14 19 15 18 DATA7 8 SHIELD VCC(I/O) CLOCK 9 SHIELD PSW_N RVBUS DVBUS CVBUS 71 of 81 © ST-ERICSSON 2010. All rights reserved. Cbypass REG3V3 XTAL1 Cfilter XTAL(1) CXTAL XTAL2 CXTAL 16 NXT STP STP DIR DIR REG1V8 RESET_N 17 GND (die pad) Cbypass Cfilter 004aab040 (1) Frequency is version dependent: ISP1507A: 19.2 MHz; ISP1507B: 26 MHz. Fig 34. Using the ISP1507 with an OTG controller; internal charge pump is utilized and crystal is attached ULPI HS USB OTG transceiver VBUS NXT ISP1507A; ISP1507B VCC xxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxx x x x xxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxx xx xx xxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxx xxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxx x x xxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxx xxx CD00222689 Product data sheet VCC(I/O) VCC +5 V IN Cbypass FAULT Rpullup VBUS SWITCH ON Cbypass DATA0 OUT VCC(I/O) 1 2 USB STANDARD-A RECEPTACLE 3 4 RRREF VBUS RREF DM D− DP D+ FAULT GND 1 32 2 31 3 30 4 29 5 28 6 27 7 26 Cbypass Cbypass DATA1 DATA2 DATA0 VCC(I/O) DATA1 CHIP_SELECT_N DATA2 DATA3 CHIP_SELECT_N CLOCK DATA3 CVBUS Rev. 04 — 20 May 2010 5 6 SHIELD ID SHIELD CPGND 25 8 DATA4 DATA4 DATA5 DATA5 ISP1507 C_B C_A PSW_N VBUS Cbypass Cfilter XTAL1 72 of 81 © ST-ERICSSON 2010. All rights reserved. XTAL2 (1) fi(XTAL1) 10 23 11 22 12 21 13 20 14 19 18 15 16 C(XTAL)SQ GND (die pad) 17 DATA6 DATA6 DATA7 DATA7 VCC(I/O) CLOCK NXT NXT STP STP DIR DIR REG1V8 RESET_N Cbypass RXTAL Cfilter 004aab041 (1) Frequency is version dependent: ISP1507A: 19.2 MHz; ISP1507B: 26 MHz. Fig 35. Using the ISP1507 with a standard USB host controller; external 5 V source with built-in FAULT and external square wave input on XTAL1 ULPI HS USB OTG transceiver REG3V3 24 ISP1507A; ISP1507B VCC 9 HOST CONTROLLER xxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxx x x x xxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxx xx xx xxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxx xxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxx x x xxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxx xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxx xxxxxxxxxxxxxxxxxxxxxxxxx xxxxxxxxxxxxxxxxxxxx xxx CD00222689 Product data sheet VCC VCC(I/O) Cbypass Cbypass 1 2 3 USB STANDARD-B RECEPTACLE 4 Rev. 04 — 20 May 2010 5 6 VBUS RVBUS RRREF D− 1 32 VCC(I/O) 2 31 DM D+ DP GND FAULT SHIELD ID SHIELD CPGND C_B C_A VCC VBUS DATA2 3 30 29 4 Cbypass 73 of 81 © ST-ERICSSON 2010. All rights reserved. CXTAL CHIP_SELECT_N 28 5 CLOCK DATA3 27 6 DATA4 DATA4 26 7 DATA5 DATA5 25 8 ISP1507 DATA6 9 24 10 23 11 22 12 21 13 20 14 19 15 18 PERIPHERAL CONTROLLER DATA6 DATA7 DATA7 VCC(I/O) CLOCK NXT NXT STP STP DIR DIR REG1V8 Cfilter XTAL(1) XTAL2 DATA2 DATA3 RESET_N 16 GND (die pad) CXTAL (1) Frequency is version dependent: ISP1507A: 19.2 MHz; ISP1507B: 26 MHz. Fig 36. Using the ISP1507 with a standard USB peripheral controller; external crystal 17 Cbypass Cfilter 004aab042 ULPI HS USB OTG transceiver XTAL1 DATA1 CHIP_SELECT_N CVBUS REG3V3 DATA0 VCC(I/O) ISP1507A; ISP1507B PSW_N Cbypass DATA1 DATA0 RREF Cbypass ISP1507A; ISP1507B ULPI HS USB OTG transceiver 17. Package outline HVQFN32: plastic thermal enhanced very thin quad flat package; no leads; 32 terminals; body 5 x 5 x 0.85 mm A B D SOT617-1 terminal 1 index area A A1 E c detail X C e1 e 1/2 e b 9 y y1 C v M C A B w M C 16 L 17 8 e e2 Eh 1/2 1 terminal 1 index area e 24 32 25 X Dh 0 2.5 5 mm scale DIMENSIONS (mm are the original dimensions) UNIT A(1) max. A1 b c D (1) Dh E (1) Eh e e1 e2 L v w y y1 mm 1 0.05 0.00 0.30 0.18 0.2 5.1 4.9 3.25 2.95 5.1 4.9 3.25 2.95 0.5 3.5 3.5 0.5 0.3 0.1 0.05 0.05 0.1 Note 1. Plastic or metal protrusions of 0.075 mm maximum per side are not included. REFERENCES OUTLINE VERSION IEC JEDEC JEITA SOT617-1 --- MO-220 --- EUROPEAN PROJECTION ISSUE DATE 01-08-08 02-10-18 Fig 37. Package outline SOT617-1 (HVQFN32) CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 74 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 18. Abbreviations Table 60. Abbreviations Acronym Description ASIC Application-Specific Integrated Circuit ATX Analog USB Transceiver CD-RW Compact Disc-ReWritable EOP End-Of-Packet ESD ElectroStatic Discharge ESR Effective Series Resistance FS Full-Speed HBM Human Body Model HNP Host Negotiation Protocol HS High-Speed ID Identification IEC International Electrotechnical Commission LS Low-Speed NRZI Non-Return-to-Zero Inverted OTG On-The-Go PCB Printed-Circuit Board PHY Physical Layer[1] PID Packet Identifier PLD Programmable Logic Device PLL Phase-Locked Loop POR Power-On Reset RXCMD Receive Command SE0 Single-Ended Zero SOF Start-Of-Frame SRP Session Request Protocol SYNC Synchronous TTL Transistor-Transistor Logic TXCMD Transmit Command USB Universal Serial Bus USB-IF USB Implementers Forum ULPI UTMI+ Low Pin Interface UTMI USB 2.0 Transceiver Macrocell Interface UTMI+ USB 2.0 Transceiver Macrocell Interface Plus [1] Physical layer containing the USB transceiver. The ISP1507 is a PHY. CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 75 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 19. References [1] Universal Serial Bus Specification Rev. 2.0 [2] On-The-Go Supplement to the USB 2.0 Specification Rev. 1.3 [3] UTMI+ Low Pin Interface (ULPI) Specification Rev. 1.1 [4] UTMI+ Specification Rev. 1.0 [5] USB 2.0 Transceiver Macrocell Interface (UTMI) Specification Ver. 1.05 [6] Electrostatic Discharge (ESD) Sensitivity Testing Human Body Model (HBM) (JESD22-A114D) [7] Interfacing to the ISP1507 (AN10080) 20. Revision history Table 61. Revision history Revision Release date Data sheet status Change notice 4 20100520 Product data sheet - Modifications: • • Table 46 “Static characteristics: supply pins”: removed ICC(I/O)(stat). • Figure 35 “Using the ISP1507 with a standard USB host controller; external 5 V source with built-in FAULT and external square wave input on XTAL1”: updated the CHIP_SELECT_N pin termination. • Figure 36 “Using the ISP1507 with a standard USB peripheral controller; external crystal”: updated the CHIP_SELECT_N pin termination. Figure 34 “Using the ISP1507 with an OTG controller; internal charge pump is utilized and crystal is attached”: updated the CHIP_SELECT_N pin termination. 3 20091022 Product data sheet - 2 20090119 Product data sheet - 1 20080519 Product data sheet - CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 76 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 21. Tables Table 1. Table 2. Table 3. Table 4. Table 5. Table 6. Table 7. Table 8. Table 9. Table 10. Table 11. Table 12. Table 13. Table 14. Table 15. Table 16. Table 17. Table 18. Table 19. Table 20. Table 21. Table 22. Table 23. Table 24. Table 25. Table 26. Table 27. Table 28. Table 29. Table 30. Table 31. Table 32. Ordering information . . . . . . . . . . . . . . . . . . . . .3 Pin description . . . . . . . . . . . . . . . . . . . . . . . . . .5 Recommended charge pump capacitor value .13 ULPI signal description . . . . . . . . . . . . . . . . . .16 Signal mapping during low-power mode . . . . .17 Signal mapping for 6-pin serial mode . . . . . . .18 Signal mapping for 3-pin serial mode . . . . . . .19 Operating states and their corresponding resistor settings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .19 OTG_CTRL register power control bits . . . . . .26 TXCMD byte format . . . . . . . . . . . . . . . . . . . . .27 RXCMD byte format . . . . . . . . . . . . . . . . . . . .27 LINESTATE[1:0] encoding for upstream facing ports: peripheral . . . . . . . . . . . . . . . . . . . . . . . .28 LINESTATE[1:0] encoding for downstream facing ports: host . . . . . . . . . . . . . . . . . . . . . . . . . . . .29 Encoded VBUS voltage state . . . . . . . . . . . . . .29 VBUS indicators in RXCMD required for typical applications . . . . . . . . . . . . . . . . . . . . . . . . . . .30 Encoded USB event signals . . . . . . . . . . . . . .31 PHY pipeline delays . . . . . . . . . . . . . . . . . . . .35 Link decision times . . . . . . . . . . . . . . . . . . . . .36 Immediate register set overview . . . . . . . . . . .49 Extended register set overview . . . . . . . . . . . .49 VENDOR_ID_LOW - Vendor ID Low register (address R = 00h) bit description . . . . . . . . . . .50 VENDOR_ID_HIGH - Vendor ID High register (address R = 01h) bit description . . . . . . . . . . .50 PRODUCT_ID_LOW - Product ID Low register (address R = 02h) bit description . . . . . . . . . . .50 PRODUCT_ID_HIGH - Product ID High register (address R = 03h) bit description . . . . . . . . . . .50 FUNC_CTRL - Function Control register (address R = 04h to 06h, W = 04h, S = 05h, C = 06h) bit allocation . . . . . . . . . . . . . . . . . . . . . . . . . . . . .50 FUNC_CTRL - Function Control register (address R = 04h to 06h, W = 04h, S = 05h, C = 06h) bit description . . . . . . . . . . . . . . . . . . . . . . . . . . . .51 INTF_CTRL - Interface Control register (address R = 07h to 09h, W = 07h, S = 08h, C = 09h) bit allocation . . . . . . . . . . . . . . . . . . . . . . . . . . . . .51 INTF_CTRL - Interface Control register (address R = 07h to 09h, W = 07h, S = 08h, C = 09h) bit description . . . . . . . . . . . . . . . . . . . . . . . . . . . .52 OTG_CTRL - OTG Control register (address R = 0Ah to 0Ch, W = 0Ah, S = 0Bh, C = 0Ch) bit allocation . . . . . . . . . . . . . . . . . . . . . . . . . . . . .53 OTG_CTRL - OTG Control register (address R = 0Ah to 0Ch, W = 0Ah, S = 0Bh, C = 0Ch) bit description . . . . . . . . . . . . . . . . . . . . . . . . . . . .53 USB_INTR_EN_R_E - USB Interrupt Enable Rising Edge register (address R = 0Dh to 0Fh, W = 0Dh, S = 0Eh, C = 0Fh) bit allocation . . . .54 USB_INTR_EN_R_E - USB Interrupt Enable Rising Edge register (address R = 0Dh to 0Fh, W = 0Dh, S = 0Eh, C = 0Fh) bit description . .54 Table 33. USB_INTR_EN_F_E - USB Interrupt Enable Falling Edge register (address R = 10h to 12h, W = 10h, S = 11h, C = 12h) bit allocation . . . . 54 Table 34. USB_INTR_EN_F_E - USB Interrupt Enable Falling Edge register (address R = 10h to 12h, W = 10h, S = 11h, C = 12h) bit description . . . 54 Table 35. USB_INTR_STAT - USB Interrupt Status register (address R = 13h) bit allocation . . . . . . . . . . . 55 Table 36. USB_INTR_STAT - USB Interrupt Status register (address R = 13h) bit description . . . . . . . . . . 55 Table 37. USB_INTR_L - USB Interrupt Latch register (address R = 14h) bit allocation . . . . . . . . . . . 55 Table 38. USB_INTR_L - USB Interrupt Latch register (address R = 14h) bit description . . . . . . . . . . 56 Table 39. DEBUG - Debug register (address R = 15h) bit allocation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56 Table 40. DEBUG - Debug register (address R = 15h) bit description . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56 Table 41. SCRATCH - Scratch register (address R = 16h to 18h, W = 16h, S = 17h, C = 18h) bit description . . . . . . . . . . . . . . . . . . . . . . . . . . . . 56 Table 42. PWR_CTRL - Power Control register (address R = 3Dh to 3Fh, W = 3Dh, S = 3Eh, C = 3Fh) bit allocation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57 Table 43. PWR_CTRL - Power Control register (address R = 3Dh to 3Fh, W = 3Dh, S = 3Eh, C = 3Fh) bit description . . . . . . . . . . . . . . . . . . . . . . . . . . . . 57 Table 44. Limiting values . . . . . . . . . . . . . . . . . . . . . . . . 59 Table 45. Recommended operating conditions . . . . . . . 59 Table 46. Static characteristics: supply pins . . . . . . . . . . 60 Table 47. Static characteristics: digital pins . . . . . . . . . . 60 Table 48. Static characteristics: digital pin FAULT . . . . . 61 Table 49. Static characteristics: digital pin PSW_N . . . . 61 Table 50. Static characteristics: analog I/O pins (DP, DM) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 61 Table 51. Static characteristics: charge pump . . . . . . . . 63 Table 52. Static characteristics: VBUS comparators . . . . 63 Table 53. Static characteristics: VBUS resistors . . . . . . . . 64 Table 54. Static characteristics: ID detection circuit . . . . 64 Table 55. Static characteristics: resistor reference . . . . . 64 Table 56. Dynamic characteristics: reset and clock . . . . 66 Table 57. Dynamic characteristics: digital I/O pins . . . . . 67 Table 58. Dynamic characteristics: analog I/O pins (DP and DM) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 67 Table 59. Recommended list of materials . . . . . . . . . . . . 70 Table 60. Abbreviations . . . . . . . . . . . . . . . . . . . . . . . . . 75 Table 61. Revision history . . . . . . . . . . . . . . . . . . . . . . . . 76 CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 77 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 22. Figures Fig 1. Fig 2. Fig 3. Fig 4. Fig 5. Fig 6. Fig 7. Fig 8. Fig 9. Fig 10. Fig 11. Fig 12. Fig 13. Fig 14. Fig 15. Fig 16. Fig 17. Fig 18. Fig 19. Fig 20. Fig 21. Fig 22. Fig 23. Fig 24. Fig 25. Fig 26. Fig 27. Fig 28. Fig 29. Fig 30. Fig 31. Fig 32. Fig 33. Fig 34. Fig 35. Fig 36. Fig 37. Block diagram . . . . . . . . . . . . . . . . . . . . . . . . . . . .4 Pin configuration HVQFN32; top view . . . . . . . . . .5 External capacitors connection . . . . . . . . . . . . . . 11 Charge pump capacitor . . . . . . . . . . . . . . . . . . . .13 Internal power-on reset timing . . . . . . . . . . . . . . .21 Power-up and reset sequence required before the ULPI bus is ready for use . . . . . . . . . . . . . . . . . .23 Interface behavior with respect to RESET_N . . .24 Entering and exiting 3-state in normal mode . . . .25 Entering and exiting 3-state in suspend mode. . .25 Single and back-to-back RXCMDs from the ISP1507 to the link. . . . . . . . . . . . . . . . . . . . . . . .28 RXCMD A_VBUS_VLD indicator source . . . . . . .30 Example of register write, register read, extended register write and extended register read . . . . . .32 USB reset and high-speed detection handshake (chirp) sequence . . . . . . . . . . . . . . . . . . . . . . . . .34 Example of using the ISP1507 to transmit and receive USB data . . . . . . . . . . . . . . . . . . . . . . . . .35 High-speed transmit-to-transmit packet timing . .37 High-speed receive-to-transmit packet timing . . .37 Preamble sequence . . . . . . . . . . . . . . . . . . . . . . .38 Full-speed suspend and resume . . . . . . . . . . . . .40 High-speed suspend and resume . . . . . . . . . . . .42 Remote wake-up from low-power mode . . . . . . .44 Transmitting USB packets without automatic SYNC and EOP generation . . . . . . . . . . . . . . . . . . . . . .45 Example of transmit followed by receive in 6-pin serial mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . .47 Example of transmit followed by receive in 3-pin serial mode . . . . . . . . . . . . . . . . . . . . . . . . . . . . .47 Human body ESD test model . . . . . . . . . . . . . . .58 Charge pump supply current as a function of VBUS output current. . . . . . . . . . . . . . . . . . . . . . . . . . . .65 VBUS output voltage as a function of VBUS output current . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .65 VBUS output voltage as a function of charge pump supply voltage . . . . . . . . . . . . . . . . . . . . . . . . . . .65 Charge pump supply current as a function of temperature . . . . . . . . . . . . . . . . . . . . . . . . . . . . .65 Rise time and fall time . . . . . . . . . . . . . . . . . . . . .69 Timing of TX_DAT and TX_SE0 to DP and DM. .69 Timing of TX_ENABLE to DP and DM. . . . . . . . .69 Timing of DP and DM to RX_RCV, RX_DP and RX_DM . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .69 ULPI interface timing . . . . . . . . . . . . . . . . . . . . . .69 Using the ISP1507 with an OTG controller; internal charge pump is utilized and crystal is attached . .71 Using the ISP1507 with a standard USB host controller; external 5 V source with built-in FAULT and external square wave input on XTAL1 . . . . .72 Using the ISP1507 with a standard USB peripheral controller; external crystal . . . . . . . . . . . . . . . . . .73 Package outline SOT617-1 (HVQFN32) . . . . . . .74 CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 78 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 23. Contents 1 2 3 4 5 6 6.1 6.2 7 7.1 7.2 7.3 7.4 7.5 7.6 7.6.1 7.6.2 7.6.2.1 7.6.2.2 7.6.2.3 7.6.3 7.6.4 7.7 7.8 7.9 7.9.1 7.9.2 7.9.3 7.9.4 7.9.5 7.9.6 7.9.7 7.9.8 7.9.9 7.9.10 7.9.11 7.9.12 7.9.13 7.9.14 7.9.15 7.9.16 7.9.17 7.9.18 7.9.19 7.9.20 8 General description . . . . . . . . . . . . . . . . . . . . . . 1 Features . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1 Applications . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2 Ordering information . . . . . . . . . . . . . . . . . . . . . 3 Block diagram . . . . . . . . . . . . . . . . . . . . . . . . . . 4 Pinning information . . . . . . . . . . . . . . . . . . . . . . 5 Pinning . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5 Pin description . . . . . . . . . . . . . . . . . . . . . . . . . 5 Functional description . . . . . . . . . . . . . . . . . . . 8 ULPI interface controller . . . . . . . . . . . . . . . . . . 8 USB data serializer and deserializer. . . . . . . . . 8 Hi-Speed USB (USB 2.0) ATX . . . . . . . . . . . . . 8 Voltage regulator. . . . . . . . . . . . . . . . . . . . . . . . 9 Crystal oscillator and PLL . . . . . . . . . . . . . . . . . 9 OTG module . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 ID detector . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 VBUS comparators. . . . . . . . . . . . . . . . . . . . . . 10 VBUS valid comparator . . . . . . . . . . . . . . . . . . 10 Session valid comparator . . . . . . . . . . . . . . . . 10 Session end comparator. . . . . . . . . . . . . . . . . 10 SRP charge and discharge resistors . . . . . . . 10 Charge pump . . . . . . . . . . . . . . . . . . . . . . . . . 11 Band gap reference voltage . . . . . . . . . . . . . . 11 Power-On Reset (POR) . . . . . . . . . . . . . . . . . 11 Detailed description of pins. . . . . . . . . . . . . . . 11 DATA[7:0] . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11 VCC(I/O) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 RREF . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 DP and DM . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 FAULT. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 ID . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 CPGND. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 C_A and C_B . . . . . . . . . . . . . . . . . . . . . . . . . 13 VCC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 PSW_N . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 VBUS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13 REG3V3 and REG1V8 . . . . . . . . . . . . . . . . . . 14 XTAL1 and XTAL2 . . . . . . . . . . . . . . . . . . . . . 14 RESET_N . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 DIR . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14 STP. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 NXT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 CLOCK . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15 CHIP_SELECT_N . . . . . . . . . . . . . . . . . . . . . 15 GND (die pad). . . . . . . . . . . . . . . . . . . . . . . . . 15 Modes of operation . . . . . . . . . . . . . . . . . . . . . 16 8.1 8.1.1 8.1.2 8.1.3 8.1.4 8.2 9 9.1 9.2 9.3 9.3.1 9.3.2 9.3.3 9.4 9.4.1 9.4.2 9.5 9.5.1 9.5.2 9.5.2.1 9.5.2.2 9.5.2.3 9.5.2.4 9.6 9.7 9.8 9.8.1 9.8.1.1 9.8.1.2 9.9 9.10 9.10.1 9.10.2 9.10.3 9.11 9.12 9.12.1 9.12.2 9.12.3 9.12.4 9.12.5 9.13 9.14 9.15 ULPI modes . . . . . . . . . . . . . . . . . . . . . . . . . . 16 Synchronous mode . . . . . . . . . . . . . . . . . . . . 16 Low-power mode . . . . . . . . . . . . . . . . . . . . . . 17 6-pin full-speed or low-speed serial mode . . . 18 3-pin full-speed or low-speed serial mode . . . 18 USB and OTG state transitions . . . . . . . . . . . 19 Protocol description . . . . . . . . . . . . . . . . . . . . 21 ULPI references . . . . . . . . . . . . . . . . . . . . . . . 21 Power-On Reset (POR) . . . . . . . . . . . . . . . . . 21 Power-up, reset and bus idle sequence. . . . . 21 Interface protection . . . . . . . . . . . . . . . . . . . . 23 Interface behavior with respect to RESET_N 24 Interface behavior with respect to CHIP_SELECT_N . . . . . . . . . . . . . . . . . . . . . 24 VBUS power and fault detection . . . . . . . . . . . 26 Driving 5 V on VBUS . . . . . . . . . . . . . . . . . . . . 26 Fault detection . . . . . . . . . . . . . . . . . . . . . . . . 26 TXCMD and RXCMD . . . . . . . . . . . . . . . . . . . 26 TXCMD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 26 RXCMD . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27 Linestate encoding . . . . . . . . . . . . . . . . . . . . . 28 VBUS state encoding. . . . . . . . . . . . . . . . . . . . 29 Using and selecting the VBUS state encoding 30 RxEvent encoding . . . . . . . . . . . . . . . . . . . . . 31 Register read and write operations . . . . . . . . 32 USB reset and high-speed detection handshake (chirp). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 32 USB packet transmit and receive. . . . . . . . . . 35 USB packet timing . . . . . . . . . . . . . . . . . . . . . 35 ISP1507 pipeline delays . . . . . . . . . . . . . . . . 35 Allowed link decision time . . . . . . . . . . . . . . . 36 Preamble . . . . . . . . . . . . . . . . . . . . . . . . . . . . 37 USB suspend and resume . . . . . . . . . . . . . . . 38 Full-speed or low-speed host-initiated suspend and resume . . . . . . . . . . . . . . . . . . . . . . . . . . 38 High-speed suspend and resume . . . . . . . . . 40 Remote wake-up . . . . . . . . . . . . . . . . . . . . . . 43 No automatic SYNC and EOP generation (optional) . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44 On-The-Go operations . . . . . . . . . . . . . . . . . . 45 OTG charge pump . . . . . . . . . . . . . . . . . . . . . 46 OTG comparators . . . . . . . . . . . . . . . . . . . . . 46 Pull-up and pull-down resistors . . . . . . . . . . . 46 ID detection . . . . . . . . . . . . . . . . . . . . . . . . . . 46 VBUS charge and discharge resistors . . . . . . . 46 Serial modes . . . . . . . . . . . . . . . . . . . . . . . . . 46 Aborting transfers. . . . . . . . . . . . . . . . . . . . . . 48 Avoiding contention on the ULPI data bus . . . 48 continued >> CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 79 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver 10 Register map . . . . . . . . . . . . . . . . . . . . . . . . . . 10.1 Immediate register set . . . . . . . . . . . . . . . . . . 10.1.1 Vendor ID and Product ID registers . . . . . . . . 10.1.1.1 VENDOR_ID_LOW register . . . . . . . . . . . . . . 10.1.1.2 VENDOR_ID_HIGH register. . . . . . . . . . . . . . 10.1.1.3 PRODUCT_ID_LOW register . . . . . . . . . . . . . 10.1.1.4 PRODUCT_ID_HIGH register . . . . . . . . . . . . 10.1.2 FUNC_CTRL register . . . . . . . . . . . . . . . . . . . 10.1.3 INTF_CTRL register . . . . . . . . . . . . . . . . . . . . 10.1.4 OTG_CTRL register . . . . . . . . . . . . . . . . . . . . 10.1.5 USB_INTR_EN_R_E register . . . . . . . . . . . . . 10.1.6 USB_INTR_EN_F_E register . . . . . . . . . . . . . 10.1.7 USB_INTR_STAT register . . . . . . . . . . . . . . . 10.1.8 USB_INTR_L register . . . . . . . . . . . . . . . . . . . 10.1.9 DEBUG register . . . . . . . . . . . . . . . . . . . . . . . 10.1.10 SCRATCH register . . . . . . . . . . . . . . . . . . . . . 10.1.11 Reserved . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10.1.12 Access extended register set . . . . . . . . . . . . . 10.1.13 Vendor-specific registers . . . . . . . . . . . . . . . . 10.1.14 PWR_CTRL register . . . . . . . . . . . . . . . . . . . . 10.2 Extended register set . . . . . . . . . . . . . . . . . . . 11 ElectroStatic Discharge (ESD) . . . . . . . . . . . . 11.1 ESD protection . . . . . . . . . . . . . . . . . . . . . . . . 11.2 ESD test conditions . . . . . . . . . . . . . . . . . . . . 12 Limiting values. . . . . . . . . . . . . . . . . . . . . . . . . 13 Recommended operating conditions. . . . . . . 14 Static characteristics. . . . . . . . . . . . . . . . . . . . 15 Dynamic characteristics . . . . . . . . . . . . . . . . . 15.1 ULPI timing . . . . . . . . . . . . . . . . . . . . . . . . . . . 16 Application information. . . . . . . . . . . . . . . . . . 17 Package outline . . . . . . . . . . . . . . . . . . . . . . . . 18 Abbreviations . . . . . . . . . . . . . . . . . . . . . . . . . . 19 References . . . . . . . . . . . . . . . . . . . . . . . . . . . . 20 Revision history . . . . . . . . . . . . . . . . . . . . . . . . 21 Tables . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 22 Figures . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 23 Contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 49 50 50 50 50 50 50 50 51 52 54 54 55 55 56 56 56 56 57 57 57 58 58 58 59 59 60 66 69 70 74 75 76 76 77 78 79 CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 80 of 81 ISP1507A; ISP1507B ULPI HS USB OTG transceiver Please Read Carefully: The contents of this document are subject to change without prior notice. ST-Ericsson makes no representation or warranty of any nature whatsoever (neither expressed nor implied) with respect to the matters addressed in this document, including but not limited to warranties of merchantability or fitness for a particular purpose, interpretability or interoperability or, against infringement of third party intellectual property rights, and in no event shall ST-Ericsson be liable to any party for any direct, indirect, incidental and or consequential damages and or loss whatsoever (including but not limited to monetary losses or loss of data), that might arise from the use of this document or the information in it. ST-Ericsson and the ST-Ericsson logo are trademarks of the ST-Ericsson group of companies or used under a license from STMicroelectronics NV or Telefonaktiebolaget LM Ericsson. All other names are the property of their respective owners. © ST-Ericsson, 2010 - All rights reserved Contact information at www.stericsson.com under Contacts www.stericsson.com CD00222689 Product data sheet © ST-ERICSSON 2010. All rights reserved. Rev. 04 — 20 May 2010 81 of 81