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| preliminary cy7c65632 hx2vl? very low power usb 2.0 hub controller cypress semiconductor corporation ? 198 champion court ? san jose , ca 95134-1709 ? 408-943-2600 document number: 001-67568 rev. *a revised june 30, 2011 features high performance, low-power usb 2.0 hub, optimized for low cost designs with minimum bill-of-material usb 2.0 hub controller ? compliant with usb 2.0 specification ? up to four downstream ports support ? downstream ports are backward compatible with fs,ls ? single transaction translator (tt) for low cost very low power consumption ? supports bus-powered and self-powered modes ? auto switching between bus-powered and self-powered ? single mcu with 2 k rom and 64 byte ram ? lowest power consumption highly integrated solution for reduced bom cost ? internal regulator ? single power supply 5 v required ? provision of connecting 3.3 v with external regulator ? integrated upstream pull-up resistor ? integrated pull-down resistors for all downstream ports ? integrated upstream /downstream termination resistors ? integrated port status indicator control ? 12 mhz +/- 500 ppm external crystal with drive level 600 w (integrated pll) clock i nput with optional 27/48 mhz oscillator clock input ? internal power failure de tection for esd recovery downstream port management ? support individual and ganged mode power management ? overcurrent detection within 8 ms ? two port status indicators per downstream port ? slew rate control for emi management maximum configurability ? vid and pid are configurab le through external eeprom ? number of ports, removable/non-removable ports are configurable th rough eeprom and i/o pin configuration ? i/o pins can configure gang/individual mode power switching, reference clock source and polarity of power switch enable pin ? configuration options also available through mask rom available in space saving 48-pin (7 7 mm) tqfp and 28-pin (5 5 mm) qfn packages supports 0 c to 70 c temperature range d+ d- 3.3v i/p (with ext. reg. & 28 qfn) nc (with ext. reg. & 48 tqfp) 3.3v o/p (for int. reg.) hub repeater routing logic usb downstream port 1 usb 2.0 phy port control usb downstream port 2 usb 2.0 phy port control usb downstream port 3 usb 2.0 phy port control usb downstream port 4 usb 2.0 phy port control mcu ram rom usb upstream port usb 2.0 phy pll d+ d- p w r # [1] o v r # [1] led d+ d- p w r # [2] o v r # [2] led d+ d- p w r # [3] o v r # [3] led d+ d- p w r # [4] o v r # [4] led i2c / spi 12/27/48 mhz osc-in or 12 mhz crystal transaction translator regulator 1.8v serial interface engine hs usb control logic 3.3v 5v i/p (for internal regulator) nc (for external regulator) block diagram ? cy7c65632 [+] feedback
preliminary cy7c65632 document number: 001-67568 rev. *a page 2 of 20 contents introduction ....................................................................... 3 usb serial interface engine ... ..................................... 3 hs usb control logic ................................................. 3 hub repeater .............................................................. 3 mcu ............................................................................ 3 transaction translator ........... ..................................... 3 port control ................................................................. 3 applications ...................................................................... 3 functional overview ........................................................ 4 system initialization ..................................................... 4 upstream port ............................................................. 4 downstream ports ....................................................... 4 power switching .......................................................... 4 pin configuration cy7c65632 ? 48 tqfp ...................... 6 pin description for 48-pin package ................................ 8 pin description for 28-pin package .............................. 10 eeprom configuration options .............. .............. ....... 11 pin configuration options ............................................. 12 power-on reset ......................................................... 12 gang/individual power switching mode .................... 12 features supported in 48-pin and 28-pin packages . 12 power switch enable pin polarity ............................. 12 port number configuration ........................................ 12 non removable ports configuration ......................... 13 reference clock configuration ................................. 13 electrical characteristics ............................................... 14 absolute maximum ratings ... .................................... 14 operating conditions ................................................. 14 ac electrical characteristics ..................................... 15 ordering information ...................................................... 16 ordering code definitions ..... .................................... 16 package diagrams .......................................................... 17 acronyms ........................................................................ 18 document conventions ................................................. 18 units of measure ....................................................... 18 document history page ................................................. 19 sales, solutions, and legal information ...................... 20 worldwide sales and design s upport ......... .............. 20 products .................................................................... 20 psoc solutions ......................................................... 20 [+] feedback preliminary cy7c65632 document number: 001-67568 rev. *a page 3 of 20 introduction hx2vl? is cypress?s next generation family of high performance, very low power usb 2.0 hub controllers. hx2vl has integrated upstream and downstream transceivers; a usb serial interface engine (sie); usb hub control and repeater logic; and transaction translator (tt) logic. cypress has also integrated external components such as voltage regulator and pull-up/pull-down resistors, reducing the overall bill of materials required to implement a usb hub system. the cy7c65632 is a part of the hx2vl portfolio. this device option is for ultra low power but high performance applications that require up to four downst ream ports. all downstream ports share a single transaction translator. the cy7c65632 is available in 48 pin tqfp and 28 pin qfn package options. all device options are supported by cypress?s world class reference design kits, which incl ude board schematics, bill of materials, gerber files, or cad files, and thorough design documentation. hx2vl architecture the logic block diagram on page 1 shows the hx2vl single tt hub architecture. usb serial interface engine the serial interface engine (sie ) allows hx2vl to communicate with the usb host. the sie handles the following usb activities independently of the hub control block. bit stuffing and unstuffing checksum generation and checking token type identification address checking. hs usb control logic ?hub control? block co-ordinates enumeration, suspend and resume. it generates status and control signals for host access to the hub. it also includes the frame timer that synchronizes the hub to the host. it has status/con trol registers which function as the interface to the firmware in the mcu. hub repeater the hub repeater manages the co nnectivity between upstream and downstream facing ports that are operating at the same speed. it supports full or low speed connectivity and high speed connectivity. according to the usb 2.0 specification, the hub repeater provides the following functions: sets up and tears down connectivity on packet boundaries ensures orderly entry into and out of ?suspend? state, including proper handling of remote wakeups. mcu hx2vl has mcu with 2 k rom and 64 byte ram. the mcu operates with a 12 mhz clock to decode usb commands from host and respond to the host. it can also handle gpio settings to provide higher flexibility to the customers and control the read interface to the eeprom which has extended configuration options. the mcu is programmable while manufactoring in the factory as per customer needs. transaction translator the transaction translator translates data from one speed to another. a tt takes high speed split transactions and translates them to full or low speed transactions when the hub is operating at high speed (the upstream port is connected to a high speed host controller) and has full or low speed devices attached. the operating speed of a device attached on a downstream port determines whether the routing logic connects a port to the tt or to hub repeater. when the upstream host and downstream device are functioning at differ ent speeds, the data is routed through the tt. in all other cases, the data is routed through the repeater. for example, if a full or low speed device is connected to the high speed host upstream through the hub, then the data transfer route includes tt. if a high speed device is connected to the high speed host upstream through the hub, the transfer route includes the repeater. when the h ub is connected to a full speed host controller upstream, then high speed peripheral does not operate at its full capability. these devices only work at full speed. full and low speed devices connected to this hub operate at their normal speed. port control the downstream ?port control? block handles the connect/disconnect and over current detection as well as the power enable and led control. it also generates the control signals for the downstream transceivers. applications typical applications for the hx2vl device family are: docking stations standalone hubs monitor hubs multi-function printers digital televisions advanced port replicators keyboard hubs gaming consoles [+] feedback preliminary cy7c65632 document number: 001-67568 rev. *a page 4 of 20 functional overview the cypress cy7c65632 usb 2.0 hubs are low power hub solutions for usb which provide maximum transfer efficiency. the cy7c65632 usb 2.0 hubs in tegrate 1.5 kohm upstream pull-up resistors for full speed op eration and all downstream 15 kohm pull-down resistors and series termination resistors on all upstream and downstream d+ and d? pins. this results in optimization of system costs by pr oviding built-in support for the usb 2.0 specification. system initialization on power up, cy7c65632 has an option to enumerate from the default settings in the mask rom or from reading an external eeprom for configuration informati on. at the most basic level, this eeprom has the vendor id (vid) and the product id (pid), for the customer's application. for more specialized applications, other configuration options can be specified. see eeprom configuration options for more details. cy7c65632 verifies the checksu m before loading the eeprom contents as the descriptors. enumeration the device checks if vbuspowe r (connected to up-stream v bus ) is high, cy7c65632 enables t he pull-up resistor on d+ to indicate its presence to the upstream hub, after which a usb bus reset is expected. after a usb bus reset, cy7c65632 is in an unaddressed, unconfigured state (configuration value set to ?0?). during the enumeration process, th e host sets the hub's address and configuration. after the h ub is configured, the full hub functionality is available. upstream port the upstream port includes the tr ansmitter and the receiver state machine. the transmitter and receiver operate in high speed and full speed depending on the current hub configuration. the transmitter state machine monitors the upstream facing port while the hub repeater has connectivity in the upstream direction. this machine prevents babble and disconnect events on the downstream facing ports of this hub from propagating and causing the hub to be disabled or disconnected by the hub to which it is attached. downstream ports the cy7c65632 supports a maximum of four downstream ports, each of which may be marked as usable or removable in the eeprom configuration, see eeprom configuration options . additionally, number of downstream ports can also be configured by pin strapping, see pin configuration options. downstream d+ and d? pull-down resistors are incorporated in cy7c65632 for each port. before the hubs are configured, the ports are driven se0 (single ended zero, where both d+ and d? are driven low) and are set to the unpowered state. when the hub is configured, the ports are not driven and the host may power the ports by sending a setportpower command for each port. after a port is powered, any connect or disconnect event is detected by the hub. any change in the port state is reported by the hubs back to the host thr ough the status change endpoint (endpoint 1). on receipt of setp ortreset request for a port with a device connected, the hub does as follows: performs a usb reset on the corresponding port puts the port in an enabled state enables babble detection after the port is enabled. babble consists of a non idle condition on the port after eof2. if babble is detected on an enabled port, that port is disabled. a clearportenable request from the host also disables the specified port. downstream ports can be indivi dually suspended by the host with the setportsuspend request. if the hub is not suspended, a remote wakeup event on that port is reflected to the host through a port change indication in the hub status change endpoint. if the hub is suspended, a remote wakeup event on this port is forwarded to the host. the host may resume the port by sending a clearportsuspend command. power switching the cy7c65632 includes interface signals for external port power switches. both ganged and individual (per-port) configurations are supported by pin strapping, see pin configuration options . after enumerating, the host may power each port by sending a setportpower request for that port. power switching and overcurrent detection are managed using respective control signals (pwr#[n] and ovr#[n]) which are connected to an external power switch device. both high/low enabled power switches are supported and the polarity is configured through gpio setting, see pin configuration options . overcurrent detection the ovr#[n] pins of the cy7c65632 series are connected to the respective external power switch's port overcurrent indication (output) signals. after detecting an overcurrent condition, hub reports overcurrent condition to the host and disables the pwr#[n] output to the external power device. port indicators the usb 2.0 port indicators are also supported directly by cy7c65632. according to the s pecification, each downstream port of the hub optionally supports a status indicator. the presence of indicators for downstream facing ports is specified by bit 7 of the whubcharacteristics field of the hub class descriptor. the default cy7c65632 descriptor specifies that the port indicators are supported. the cy7c65632 port indicators has two modes of operation: automatic and manual. on power up the cy7c65632 defaul ts to automatic mode, where the color of the port indicator (green, amber, off) indicates the functional status of the cy7c 65632 port. the leds are turned off when the device is suspended port status indicator led [+] feedback preliminary cy7c65632 document number: 001-67568 rev. *a page 5 of 20 note pin-strapping green#[1] and green#[2] enables proprietary function that may affe ct the normal functionality of hx2vl. configuring port #1 and #2 as non-removable by pin-strapping should be avoided. power regulator cy7c65632 requires 3.3 v source power for normal operation of internal core logic and usb physical layer (phy). the integrated low-drop power regulator converts 5 v power input from usb cable (vbus) to 3.3 v source pow er. the 3.3 v power output is guaranteed by an internal voltage reference circuit when the input voltage is within the 4 v to 5.5 v range. the regulator?s maximum current loading is 150 ma, which provides tolerance margin over cy7c65632?s normal power consumption of below 100 ma. the on chip regulator has a quiescent current of 28 ua. external regulation scheme cy7c65632 supports both external regulation and internal regulation schemes. when an external regulation is chosen, then for the 48 pin package, vcc and vreg are to be left open with no connection. the external regulator output 3.3 v has to be connected to vcc_a and vcc_d pins. this connection has to be done externally, on board. for the 28 pin package, the 3.3 v output from the external regula tor has to be connected to vreg, vcc_a and vcc_d. the vcc pin has to be left open with no connection. from the external i nput 3.3 v, 1.8 v is internally generated for the chip?s internal usage. internal regulation scheme when the built-in internal regulator is chosen, then the vcc pin has to be connected to a 5 v, in both 48 pin and 28 pin packages. internally, the built-in regulator generates a 3.3 v and 1.8 v for the chip?s internal usage. also a 3.3 v output is available at vreg pin, that has to be con nected externally to vcc_a and vcc_d. vcc_d vcc external ? regulation ? scheme vcc_a vreg nc nc 5v ? to ? 3.3v regulator vcc_a vcc_d vreg vcc nc 5v ? to ? 3.3v regulator cy7c65632 48 ? pin cy7c65632 28 ? pin 3.3v 3.3v vcc_d vcc internal ? regulation ? scheme vcc_a vreg 5v vcc_a vcc_d vreg vcc 5v cy7c65632 48 ? pin cy7c65632 28 ? pin [+] feedback preliminary cy7c65632 document number: 001-67568 rev. *a page 6 of 20 pin configuration cy7c65632 ? 48 tqfp amber[2] / spi_di / pwr_pin_pol 36 green[2] / spi_do / fixed_port2 35 vcc_d 34 amber[3] / set_port_num2 33 green[3] / fixed_port3 32 pwr#[3] 31 ovr#[3] 30 pwr#[4] 29 ovr#[4] 28 test / scl 27 reset# 26 sel48 25 vcc_a 1 gnd 2 d- 3 d+ 4 dd-[1] 5 dd+[1] 6 vcc_a 7 gnd 8 dd-[2] 9 dd+[2] 10 rref 11 vcc_a 12 amber[4] / set_port_num1 24 green[4] / fixed_port4 23 dd+[4] 22 dd-[4] 21 gnd 20 vcc_a 19 dd+[3] 18 dd-[3] 17 vcc_a 16 xout 15 xin 14 gnd 13 selfpwr 37 vcc_d 38 gang 39 ovr#[2] 40 pwr#[2] 41 ovr#[1] 42 pwr#[1] / i2c_sda 43 sel27 44 green[1] / spi_sk / fixed_port1 45 amber[1] / spi_cs 46 vcc 47 vreg 48 cy7c65632 48 tqfp [+] feedback preliminary cy7c65632 document number: 001-67568 rev. *a page 7 of 20 pin configuration cy7c65632 ? 28 qfn d+ dd - [1] vcc a _ ovr # [ 3 ] 1 2 3 4 5 6 18 17 16 15 12 11 10 9 8 22 23 24 - xin rref selfpwr gang vcc vreg test/scl reset# 7 14 13 21 20 19 25 26 27 28 xout sda d- d d+ [1] d d+ [4] d d- [4] d d+ [2] d d- [2] d d+ [3] d d- [3] vcc a _ vcc a _ vcc d _ ovr # [ 4 ] ovr # [ 1 ] ovr # [ 2 ] qfn 28 cy7c65632 [+] feedback preliminary cy7c65632 document number: 001-67568 rev. *a page 8 of 20 pin description for 48-pin package pin types: i = input, o = output, p = power/ground., z = high impedance, r dn = pad internal pull down resistor, r up = pad internal pull up resistor. table 1. pin assignments name 48tqfp pin no. type description power and clock vcc_a 1 p v cc_a . 3.3 v analog power to the chip. vcc_a 7 p v cc_a . 3.3 v analog power to the chip. vcc_a 12 p v cc_a . 3.3 v analog power to the chip. vcc_a 16 p v cc_a . 3.3 v analog power to the chip. vcc_a 19 p v cc_a . 3.3 v analog power to the chip. vcc_d 34 p v cc_d . 3.3 v digital power to the chip. vcc_d 38 p v cc_d . 3.3 v digital power to the chip. vcc 47 p v cc . 5 v input to the internal regulator; nc if using external regulator vreg 48 p v cc . 5 - 3.3 v regulator o/p during internal regulation; nc if using external regulator. gnd 2 p gnd. connect to ground with as short a path as possible. gnd 8 p gnd. connect to ground with as short a path as possible. gnd 13 p gnd. connect to ground with as short a path as possible. gnd 20 p gnd. connect to ground with as short a path as possible. xin 14 i 12 mhz crystal clock input , or 12/27/48 mhz clock input xout 15 o 12 mhz crystal out sel48/sel27 25/44 i 00: reserved 01: 48 mhz osc-in 10: 27 mhz osc-in 11: 12 mhz crystal or osc-in reset# 26 i active low reset. external reset input, default pu ll high 10 k ohm; when reset = low, whole chip is reset to the initial state selfpwr 37 i self power. input for selecting self/bus power. 0 is bus powered, 1 is self powered. gang 39 i/o gang default is input mode after power-on-reset. gang mode : input:1 -> output is 0 for normal operation and 1 for suspend individual mode : input:0 -> output is 1 for normal operation and 0 for suspend refer to gang/individual power switching modes in pin configuration options section for details rref 11 i/o 650 ohm resistor must be connected between rref and ground system interface te s t i2c_scl 27 i(r dn ) i/o(r dn ) test: 0: normal operation & 1: chip will be put in test mode i2c_scl: can be used as i2c clock pin to access i2c eeprom upstream port d? 3 i/o/z upstream d? signal. d+ 4 i/o/z upstream d+ signal. downstream port 1 dd?[1] 5 i/o/z downstream d? signal. dd+[1] 6 i/o/z downstream d+ signal. amber[1] spi_cs 46 o(r dn ) o(r dn ) led. driver output for amber led. port in dicator support. default is active low. spi_cs. can be used as chip select to access external spi eeprom. [+] feedback preliminary cy7c65632 document number: 001-67568 rev. *a page 9 of 20 green[1] spi_sk fixed_port1 45 o(r dn ) o(r dn ) i(r dn ) led. driver output for green led. port in dicator support. default is active low. spi_sk. can be used as spi clock to access external spi eeprom. fixed_port1. at por used to set port1 as non removable port. refer pin configu- ration section ovr#[1] 42 i(r up ) overcurrent condition detection input. default is active low pwr#[1] i2c_sda 43 o/z i/o power switch driver output. default is active low. i2c_sda. can be used as i2c data pi n, connected with i2c eeprom. downstream port 2 dd?[2] 9 i/o/z downstream d? signal. dd+[2] 10 i/o/z downstream d+ signal. amber[2] spi_di pwr_pin_pol 36 o(r dn ) o(r dn ) i(r dn ) led. driver output for amber led. port in dicator support. default is active low. spi_di. can be used as data out to access external spi eeprom. pwr_pin_pol. used for power switch enable pin polarity setting. refer configu- ration section green[2] spi_do fixed_port2 35 o(r dn ) i(r dn ) i(r dn ) led. driver output for green led. port in dicator support. default is active low. spi_do. can be used as data in to access external spi eeprom. fixed_port2. at por used to set port2 as non removable port. refer configuration section ovr#[2] 40 i(r up ) overcurrent condition detection input. default is active low pwr#[2] 41 o/z power switch driver output. default is active low downstream port 3 dd?[3] 17 i/o/z downstream d? signal. dd+[3] 18 i/o/z downstream d+ signal. amber[3] set_port_num2 33 o(r dn ) i(r dn ) led. driver output for amber led. port in dicator support. default is active low. set_port_num2. used to set port numbering along with set_port_num1. refer pin configuration section. green[3] fixed_port3 32 o(r dn ) i(r dn ) led. driver output for green led. port in dicator support. default is active low. fixed_port3. at por used to set port3 as non removable port. refer pin configu- ration section. ovr#[3] 30 i(r up ) overcurrent condition detection input. default is active low. pwr#[3] 31 o/z power switch driver output. default is active low. downstream port 4 dd?[4] 21 i/o/z downstream d? signal. dd+[4] 22 i/o/z downstream d+ signal. amber[4] set_port_num1 24 o(r dn ) i(r dn ) led. driver output for amber led. port in dicator support. default is active low. set_port_num1. used to set port numbering along with set_port_num2. refer configuration section. green[4] fixed_port4 23 o(r dn ) i(r dn ) led. driver output for green led. port in dicator support. default is active low. fixed_port4. at por used to set port4 as non removable port. refer configuration section. ovr#[4] 28 i(r up ) overcurrent condition detection input. default is active low. pwr#[4] 29 o/z power switch driver output. default is active low. pin types: i = input, o = output, p = power/ground., z = high impedance, r dn = pad internal pull down resistor, r up = pad internal pull up resistor. table 1. pin assignments name 48tqfp pin no. type description [+] feedback preliminary cy7c65632 document number: 001-67568 rev. *a page 10 of 20 pin description for 28-pin package pin types: i = input, o = output, p = power/ground., z = high impedance, r dn = pad internal pull down resistor, r up = pad internal pull up resistor. table 2. pin assignments name 28qfn pin no. type description power and clock vcc_a 5 p v cc_a . 3.3 v analog power to the chip. vcc_a 9 p v cc_a . 3.3 v analog power to the chip. vcc_a 14 p v cc_a . 3.3 v analog power to the chip. vcc_d 21 p v cc_d . 3.3 v digital power to the chip. vcc 27 p v cc . 5 v input to the internal regulat or; nc if using external regulator vreg 28 p v cc . 5 - 3.3 v regulator o/p during internal regula tion; 3.3 v i/p if using external regulator. xin 10 i 12 mhz crystal clock i nput, or 12/27/48 mhz clock input xout 11 o 12 mhz crystal out reset# 17 i active low reset. external reset input, default pull high 10 k ohm; when reset = low, whole chip is reset to the initial state selfpwr 22 i self power. input for selecting self/bus power. 0 is bus powered, 1 is self powered. gang 23 i/o gang default is input mode after power-on-reset. gang mode : input:1 -> output is 0 for normal operation and 1 for suspend individual mode : input:0 -> output is 1 for normal operation and 0 for suspend refer to gang/individual power switching modes in pin configuration options section for details rref 8 i/o 650 ohm resistor must be connected between rref and ground system interface te s t scl 18 i(r dn ) i/o(r dn ) test: 0: normal operation & 1: chip will be put in test mode scl: i2c clock pin. sda 26 i/o sda: i2c data pin. upstream port d? 1 i/o/z upstream d? signal. d+ 2 i/o/z upstream d+ signal. downstream port 1 dd?[1] 3 i/o/z downstream d? signal. dd+[1] 4 i/o/z downstream d+ signal. ovr#[1] 25 i(r up ) overcurrent condition detection input. default is active low downstream port 2 dd?[2] 6 i/o/z downstream d? signal. dd+[2] 7 i/o/z downstream d+ signal. ovr#[2] 24 i(r up ) overcurrent condition detection input. default is active low downstream port 3 dd?[3] 12 i/o/z downstream d? signal. dd+[3] 13 i/o/z downstream d+ signal. ovr#[3] 20 i(r up ) overcurrent condition detection input. default is active low. gnd in 2 port parts. downstream port 4 dd?[4] 15 i/o/z downstream d? signal. dd+[4] 16 i/o/z downstream d+ signal. ovr#[4] 19 i(r up ) overcurrent condition detection input. default is active low. gnd in 2 port parts. gnd pad p ground pin for the chip. it is the so lderable exposed pad beneath the chip. refer figure 2 on page 17 . [+] feedback preliminary cy7c65632 document number: 001-67568 rev. *a page 11 of 20 eeprom configuration options systems using cy7c65632 have th e option of using the default descriptors to configure the hub. otherwise, it must have an external eeprom for the device to have a unique vid, and pid. the cy7c65632 can communicat e with an spi (microwire) eeprom like 93c46 or i2c eeprom like 24c02. example eeprom connections are as s hown in the following figure. note the 28 pin qfn package includes only support for i2c eeprom like atmel/24c02n_s u27 d, microchip/4lc028 sn0509, seiko/s24cs02avh9. the 48 pin tqfp package includes both i2c and spi eeprom connectivity options. in this case, user can use either spi or i2c connectivity at a time for communicating to eeprom. the 48 pin package supports atmel/at93c46dn-sh-t, in addition to the above mentioned families. hx2vl can only read from spi eeprom. so, field programming of eeprom is su pported only for i2c eeprom. cy7c65632 verifies the check sum after power on reset and if validated loads the configurati on from the eeprom. to prevent this configuration from being over written, amber led is disabled when spi eeprom is present. def ault vid is 0x4b4, pid is 0x6570. byte 0: vid (lsb) least significant byte of vendor id byte 1: vid (msb) most significant byte of vendor id byte2: pid (lsb) least significant byte of product id byte 3: pid (msb)] most significant byte of product id byte 4: chksum cy7c65632 will ignore the eeprom settings if chksum is not equal to vid_lsb + vid_ msb + pid_lsb + pid_msb +1 byte 5: reserved set to ff byte 6: removableports removableports[4:1] are the bits that indicates whether the device attached to the corresponding downstream port is removable (set to 0). bit 1 corresponds to port 1, bit 2 to port 2 and so on. these bit values are reported appropriately in the hubdescriptor:deviceremovable field. bits 0,5,6,7 are set to 0. byte 7: port number port number values must be 1 to 4 byte 8: maximum power this value is reported in the configuration descriptor: bmax-power field and is the cu rrent in 2 ma increments that is required from the upstream hubs. the allowed range is 00h (0 ma) to fah(500 ma) cs di sk do gnd nc2 nc1 vcc amber#[1] amber#[2] green#[1] green#[2] vdd at93c46 a0 a2 a1 gnd sda scl wp vcc test at24c02 vdd pwr#[1] i2c eeprom connection spi eeprom connection byte value 00h vid_lsb 01h vid_msb 02h pid_lsb 03h pid_msb 04h chksum 05h reserved - fe 06h removable ports 07h port number 08h maximum power 09h - 0fh reserved - ff (except 0bh which is fe) 10h vendor string length 11h - 3fh vendor string (ascii code) 40h product string length 41h - 6fh product string (ascii code) 70h serial number length 71h to 80h onwards serial number string [+] feedback preliminary cy7c65632 document number: 001-67568 rev. *a page 12 of 20 byte 9 - 15: reserved set to ff byte 16: vendor string length length of the vendor string byte 17 - 63: vendor string value of vendor string. strings must comply with the usb specification. the first byte (byte 16) must be the length of the string in bytes, the second must be 0x03, and the string must be in ascii code. byte 64: product string length length of the product string byte 65- 111: product string value of product string in ascii code byte 112: serial number length length of the serial number byte 113 onwards: serial number string serial number string in ascii code. pin configuration options power-on reset the power on reset can be triggered by external reset or internal circuitry. the internal reset is in itiated, when there is an unstable power event for silicon? s internal core power (3.3 v). the internal reset is released after approximately 2.7 micro-seconds of stable internal core voltage. the external reset pin, continuously senses the voltage level (5 v) on the upstream vbus as shown in the figure. in the event of usb plug/unplug or drop in voltage, the external reset is triggered. this reset trigger can be configured using the resistors r1 and r2. cypress recommends that the reset time applied in external reset circuit should be longer than that of the internal reset time. gang/individual power switching mode a single pin is used to set individual / gang mode as well as output the suspend flag. this is done to reduce the pin count. the individual or gang mode is decided within 20 us after power on reset. 50ms after reset, this pin is changed to output mode. cy7c65632 outputs the suspend flag, after it is globally suspended. pull-down resistor of greater than 100 k is needed for individual mode and a pull-up resistor greater than 100 k is needed for gang mode. figure below shows the suspend led indicator schematics. the polarity of led must be followed, otherwise the suspend current will be over the spec limitation (2.5 ma). features supported in 48-pin and 28-pin packages power switch enable pin polarity the pin polarity is set active-high by pin-strapping the pwr_pin_pol pin to 1 and acti ve-low by pin-strapping the pwr_pin_pol pin to 0. thus, both kinds of power switches are supported. this feature is not supported in qfn-28 package. port number configuration in addition to the eeprom c onfiguration, as described above, configuring the hub for 2/3/4 ports is also supported using pin-strapping set_port_num1 and set_port_num2, as shown in following table. pin strapping option is not supported in the 28-qfn package. global reset# int. 3.3v power-good detection circuit input (usb phy reset) ext. vbus power-good detection circuit input (pin"reset#") vbus (external 5v) r1 r2 int ext pcb silicon supported features 48 pin 28 pin port number configuration yes no non-removable port configuration yes no reference clock configuration yes no power switch enable polarity yes no led indicator yes no set_port_num2 set_port_num1 # ports 1 1 1 (port 1) 1 0 2 (port 1/2) 0 1 3 (port 1/2/3) 0 0 4 (all ports) 0 : individual mode 1: gang mode suspend out vdd (3.3v) suspend indicator vdd (3.3v) 100k 100k gang/suspnd silicon pcb gang mode individual mode [+] feedback preliminary cy7c65632 document number: 001-67568 rev. *a page 13 of 20 non removable ports configuration in embedded systems, downstream ports that are always connected inside the system, ca n be set as non-removable (always connected) ports, by pin-strapping the corresponding fixed_port# pins 1~4 to high, before power on reset. at por, if the pin is pull high, the corresponding port is set to non-removable. this is not supported in the 28-qfn package. reference clock configuration this hub can support, optional 27/48 mhz clock source. when on-board 27/48 mhz clock is pres ent, then using this feature, system integrator can fu rther reduce the bom cost by eliminating the external crystal. this is available through gpio pin configuration shown as follows. this is not supported in the 28-qfn package sel48 sel27 clock source 0 1 48 mhz osc-in 1 0 27 mhz osc-in 1 1 12 mhz x?tal/osc-in [+] feedback preliminary cy7c65632 document number: 001-67568 rev. *a page 14 of 20 electrical characteristics absolute maximum ratings exceeding maximum ratings may s horten the useful life of the device. user guidelines are not tested. storage temperature ................ ............... ?55 c to +100 c ambient temperature .................................... 0 c to +70 c 5 v supply voltage to ground potential ......?0.5 v to +6.0 v 3.3 v supply voltage to ground potential ...?0.5 v to +3.6 v voltage at open drain input pins (ovr#1-4, selfpwr, reset#) ............ .............. .............. ..............?0.5 v to +5.5 v 3.3 v input voltage for digital i/o ..................?0.5 v to +3.6 v fosc (oscillator or crystal frequency) ...... 12 mhz 0.05% operating conditions ambient temperature ..................................... 0c to +70 c ambient max junction temperature ............. 0c to +125 c 5 v supply voltage to ground potential ....4.75 v to +5.25 v 3.3 v supply voltage to ground potential ...3.15 v to +3.6 v input voltage for usb signal pins ..................0.5 v to +3.6 v voltage at open drain input pins ................?0.5 v to +5.0 v thermal characteristics 48 tqfp ........................ 75.8 c/w thermal characteristics 28 qfn .......................... 32.4 c/w usb transceiver is usb 2.0 certified in low, full and high speed modes. table 3. dc electrical characteristics parameter description conditions min typ max unit p d power dissipation excluding usb signals 366.5 426.5 mw v ih input high voltage 2 v v il input low voltage 0.8 v i l input leakage current full speed/ low speed (0 < v in < v cc )?10 +10 a high speed mode (0 < v in < v cc )?50+5 a v oh output voltage high i oh = 8 ma 2.4 v v ol output low voltage i ol = 8 ma 0.4 v r dn pad internal pull-down resistor 29 59 135 kohm r up pad internal pull-up resistor 80 108 140 kohm c in input pin capacitance full speed / low speed mode 20 pf high speed mode 4 4.5 5 pf i susp suspend current 786 903 a i cc supply current 4 active ports full speed host, full speed devices 88.7 99.78 ma high speed host, high speed devices 81.9 91.44 ma high speed host, full speed devices 88.2 97.23 ma 3 active ports full speed host, full speed devices 79.1 94.6 ma high speed host, high speed devices 72.9 80.92 ma high speed host, full speed devices 75.9 92.02 ma 2 active ports full speed host, full speed devices 68.1 80.53 ma high speed host, high speed devices 61.9 70.55 ma high speed host, full speed devices 64.9 77.46 ma 1 active ports full speed host, full speed devices 57.1 66.66 ma high speed host, high speed devices 51.9 60.32 ma high speed host, full speed devices 54.7 63.81 ma no active ports full speed host 42.8 49.02 ma high speed host 44.2 49.78 ma [+] feedback preliminary cy7c65632 document number: 001-67568 rev. *a page 15 of 20 ac electrical characteristics both the upstream usb transceiver and all fo ur downstream transceivers have passed the usb-if usb 2.0 electrical certification testing. the 48 pin tqfp package can support communi cation to eeprom using either i 2 c or spi. the 28-pin qfn package can support only i 2 c communication to eeprom. ac characte ristics of these two inte rfaces to eeprom are summa rized in tables below: table 4. ac char acteristics of spi eeprom interface table 5. ac char acteristics of i2c eeprom interface symbol parameter min typ max units t css cs setup time 3.0 t csh cs hold time 3.0 t skh sk high time 1.0 t skl sk low time 2.2 t dis di setup time 1.8 t dih di hold time 2.4 t pd1 output delay to '1' 1.8 t pd0 output delay to '0' 1.8 us minmaxminmax f scl scl clock frequency 0.0 100 0.0 400 khz t low clock low period 4.7 - 1.2 - us t high clock high period 4.0 - 0.6 - us t su :st a start condition setup time 4.7 - 0.6 - us t su :st o stop condition setup time 4.7 - 0.6 - us t hd:st a start condition hold time 4.0 - 0.6 - us t hd:st o stop condition hold time 4.0 - 0.6 - us t su:dat data in setup time 200.0 - 100.0 - ns t hd:dat data in hold time 0 - 0 - ns t dh data out hold time 100 - 50 - ns t aa clock to output 0.1 4.5 0.1 0.9 us units parameter symbol 1.8v - 5.5v 2.5v - 5.5v [+] feedback preliminary cy7c65632 document number: 001-67568 rev. *a page 16 of 20 ordering information ordering code definitions ordering code device package type cy7c65632-48axc 4 port single-tt hub (configurable with gpios and eeprom) 48-pin tqfp bulk CY7C65632-28LTXC 4 port single-tt hub (configurable with gpios and eeprom) 28-pin qfn bulk cy company id: cy = cypress 7c marketing code: 7c xxx base part number xx specific product identifier xx pin count: 28 = 28 pins, 48 = 48 pins xxx package type: ax: tqfp (pb-free) ltx: qfn (pb-free) c temperature grades: commercial - [+] feedback preliminary cy7c65632 document number: 001-67568 rev. *a page 17 of 20 package diagrams the cy7c65632 is available in following packages: figure 1. 48-pin tqfp package diagram figure 2. 28-pin qfn package diagram [+] feedback [+] feedback [+] feedback 51-85135 *b side view top view bottom view see notes mla 001 64621 package outline, 28l qfn 5x5x0.8mm, lt2 10/06/10 0.05 0.025 see note 1 3. package weight: ~0.05gr 1. hatch area is solderable exposed pad notes: 2. based on ref jedec # mo-220 4. dimensions are in millimeters 3.5x3.5 epad, sawn bovs 10/06/10 [+] feedback [+] feedback [+] feedback 001-64621 ** [+] feedback preliminary cy7c65632 document number: 001-67568 rev. *a page 18 of 20 acronyms the following table lists the acronyms that are used in this document. document conventions units of measure the following table lists the units of me asure that are used in this document. table 6. acronyms used in this datasheet acronym description acronym description ac alternating current pc program counter adc analog-to-digital converter pll phase-locked loop api application programming interface por power on reset cpu central processing unit ppor precision power on reset ct continuous time psoc ? programmable system-on-chip? eco external crystal oscillator pwm pulse width modulator eeprom electrically erasabl e programmable read-only memory sc switched capacitor fsr full scale range sram static random access memory gpio general purpose i/o ice in-circuit emulator gui graphical user interface ilo internal low speed oscillator hbm human body model imo internal main oscillator lsb least-significant bit i/o input/output lvd low voltage detect ipor imprecise power on reset msb most-significant bit table 7. units of measure symbol unit of measure symbol unit of measure c degree celsius w microwatts db decibels ma milliampere ff femto farad ms millisecond hz hertz mv millivolts kb 1024 bytes na nanoampere kbit 1024 bits ns nanosecond khz kilohertz nv nanovolts k kilohm ohm mhz megahertz pa picoampere m megaohm pf picofarad a microampere pp peak-to-peak f microfarad ppm parts per million h microhenry ps picosecond s microsecond sps samples per second v microvolts s sigma: one standard deviation vrms microvolts root-mean-square v volts [+] feedback preliminary cy7c65632 document number: 001-67568 rev. *a page 19 of 20 document history page document title: cy7c65632 hx2vl? very low power usb 2.0 hub controller document number: 001-67568 revision ecn orig. of change submission date description of change ** 3183649 ssjo/ swak 03/02/2011 new datasheet *a 3250883 swak/aasi 06/30/2011 1. in page 6, the pin of the 48-pin tqfp package was named self_pwr. it is changed to selfpwr. 2. in page 9, 10 and 11 the entry against ovr# in the pin assignment table is changed to "active low overcurrent conditi on detection input" as it should not say "default is active low" since the polarity is not configurable. 3. in page 8 and 11, in page assignm ent table, entry against xout is changed to "12-mhz crystal out. (nc if external clock is used)" 4. in page 11, under pin assignment ta ble, entry against xin is changed to "12-mhz crystal clock input, or 12-mhz clock input" since 28-pin package does not support 27 and 48 mhz. 5. in page 4, under ?port indicators? section added the following as a note ?pin-strapping green#[1] and green#[2] enables proprietary function that may affect the normal functionality of hx 2vl. configuring port #1 and #2 as non-removable by pin-strapping should be avoided?. 6. added note # 1 on page 9 and is referred to green#[1] and green#[2] under? pin description for 48-pin tqfp package? on page 8. 7. in section ?power switch enable pin polarity? on page 13 replaced first two occurrences of the word ?set ting? with ?pin-strapping?. [+] feedback document number: 001-67568 rev. *a revised june 30, 2011 page 20 of 20 all products and company names mentioned in this document may be the trademarks of their respective holders. preliminary cy7c65632 ? cypress semiconductor corporation, 2011. the information contained herein is subject to change without notice. cypress semico nductor corporation assumes no responsibility for the use of any circuitry other than circuitry embodied in a cypress product. nor does it convey or imply any license under patent or other rig hts. cypress products are not warranted nor intended to be used for medical, life support, life saving, critical control or safety applications, unless pursuant to an express written agreement with cypres s. furthermore, cypress does not authorize its products for use as critical components in life-support systems where a ma lfunction or failure may reasonably be expe cted to result in significant injury to the user. the inclusion of cypress products in life-support systems application implies that the manufacturer assumes all risk of such use and in doing so indemnifies cypress against all charges. any source code (software and/or firmware) is owned by cypress semiconductor corporation (cypress) and is protected by and subj ect to worldwide patent protection (united states and foreign), united states copyright laws and internatio nal treaty provisions. cypress hereby grants to licensee a personal, non-exclusive, non-transferable license to copy, use, modify, create derivative works of, and compile the cypress source code and derivative works for the sole purpose of creating custom software and or firmware in su pport of licensee product to be used only in conjunction with a cypress integrated circuit as specified in the applicable agreement. any reproduction, modification, translation, compilation, or repre sentation of this source code except as specified above is prohibited without the express written permission of cypress. disclaimer: cypress makes no warranty of any kind, express or implied, with regard to this material, including, but not limited to, the implied warranties of merchantability and fitness for a particular purpose. cypress reserves the right to make changes without further notice to t he materials described herein. cypress does not assume any liability arising out of the application or use of any product or circuit described herein. cypress does not authori ze its products for use as critical components in life-support systems where a malfunction or failure may reasonably be expected to result in significant injury to the user. the inclusion of cypress? prod uct in a life-support systems application implies that the manufacturer assumes all risk of such use and in doing so indemnifies cypress against all charges. use may be limited by and subject to the applicable cypress software license agreement. sales, solutions, and legal information worldwide sales and design support cypress maintains a worldwide network of offices, solution center s, manufacturer?s representatives, and distributors. to find t he office closest to you, visit us at cypress locations . products automotive cypress.co m/go/automotive clocks & buffers cypress.com/go/clocks interface cypress. com/go/interface lighting & power control cypress.com/go/powerpsoc cypress.com/go/plc memory cypress.com/go/memory optical & image sensing cypress.com/go/image psoc cypress.com/go/psoc touch sensing cyp ress.com/go/touch usb controllers cypress.com/go/usb wireless/rf cypress.com/go/wireless psoc solutions psoc.cypress.com/solutions psoc 1 | psoc 3 | psoc 5 [+] feedback |
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